Entertainment systems and methods

ABSTRACT

A method, device, system, and media are directed to controlling a multi-tuner radio. A voice command may be received and/or filtered. An operation of the radio may be modified based on the voice command. A gesture input may be received through a gesture pad. Another operation of the multi-tuner radio may be modified based on the received gesture input. A fingerprint may be recognized with a gesture pad. A user may be authenticated based on the recognized fingerprint. The operation or the other operation may be personalized based on the fingerprint. User training may be provided for the gesture input.

RELATED APPLICATIONS

This application is a continuation of U.S. Nonprovisional applicationSer. No. 14/491,954 filed Sep. 19, 2014, which is a continuation of U.S.Nonprovisional application Ser. No. 12/348,775 filed Jan. 5, 2009, nowU.S. Pat. No. 8,868,023, which claims the benefit of U.S. ProvisionalApplication No. 61/019,101 filed Jan. 4, 2008.

This application is also a continuation of U.S. Nonprovisionalapplication Ser. No. 14/564,923 filed Dec. 9, 2014, which is acontinuation of U.S. Nonprovisional application Ser. No. 12/420,670,filed Apr. 8, 2009, now U.S. Pat. No. 8,909,128, which claims thebenefit of U.S. Provisional Application No. 61/043,597 filed Apr. 9,2008. U.S. Nonprovisional application Ser. No. 14/564,923 filed Dec. 9,2014 is also a continuation of U.S. Nonprovisional application Ser. No.12/033,616 filed Feb. 19, 2008, now U.S. Pat. No. 8,965,313, which is acontinuation of U.S. Nonprovisional application Ser. No. 10/869,415filed Jun. 15, 2004, now U.S. Pat. No. 7,343,141, which is acontinuation-in-part of U.S. Nonprovisional application Ser. No.10/645,928 filed Aug. 20, 2003, now U.S. Pat. No. 7,171,174, which is acontinuation of International Application No. PCT/US02/05039 filed Feb.20, 2002, which claims the benefit of U.S. Provisional Application No.60/270,463 filed Feb. 20, 2001.

This application is also a continuation of U.S. Nonprovisionalapplication Ser. No. 14/943,002 filed Nov. 16, 2015, now U.S. Pat. No.9,419,665, which is a continuation of U.S. Nonprovisional applicationSer. No. 14/242,771 filed Apr. 1, 2014, now U.S. Pat. No. 9,189,954,which is a continuation of U.S. Nonprovisional application Ser. No.12/420,650 filed on Apr. 8, 2009, now U.S. Pat. No. 8,699,995, whichclaims the benefit of U.S. Provisional Application No. 61/043,604 filedon Apr. 9, 2008. U.S. Nonprovisional application Ser. No. 14/943,002filed Nov. 16, 2015 is also a continuation of U.S. Nonprovisionalapplication Ser. No. 14/242,799 filed Apr. 1, 2014, now U.S. Pat. No.9,197,269, which is a continuation of U.S. Nonprovisional applicationSer. No. 12/348,765 filed Jan. 5, 2009, now U.S. Pat. No. 8,706,023,which claims the benefit of U.S. Provisional Application No. 61/019,094filed Jan. 4, 2008.

The entire content of these applications is incorporated herein byreference thereto.

FIELD OF INVENTION

This invention relates to radio systems and methods.

BACKGROUND OF THE INVENTION

The present invention is directed towards radio products and features,such as those illustratively disclosed in U.S. Pat. No. 7,171,174,issued Jan. 30, 2007, and U.S. Pat. No. 7,343,141, issued Mar. 11, 2008and, which are hereby explicitly incorporated by reference herein in itsentirety.

Radio is a very popular entertainment source today. It is used in manylocations—in the home, in the automobile, at the office, and on the go.Sources available today include broadcast (AM and FM), Internet, andsatellite. However, radio functions have been fairly constant for years.

New technologies have become available in recent years. These includeless expensive tuners, less expensive memory, and better quality analogto digital conversion. These technologies make possible an enhancedradio system.

Some improvements have been made in television systems recently.Personal video recorders, such as those manufactured by TiVo, allow auser to easily record a television program, and also provide VCR-likecontrols for television programs. For example, see U.S. Pat. No.6,259,441 (2001) to Ahmad et al., “Display pause with elastic playback,”U.S. Pat. No. 6,327,418 (2001) to Barton, “Method and apparatusimplementing random access and time-based functions on a continuousstream of formatted digital data,” and U.S. Pat. No. 6,233,389 (2001) toBarton et al., “Multimedia time warping system”. However, these types ofimprovements have been optimized for the needs of the television viewer.For instance, this prior art focuses on improving the viewing ofspecific television programs.

Radio listeners typically have different needs than television viewers.For example, television viewing typically happens in a fixed environmentin a home, while radio listening often happens in varied, often mobile,environments. People may listen to the radio in a shower. People oftenlisten to radio in a car, or carry a radio on their person as theypursue other activities. A television viewer may sit and watch a programthrough its completion. A radio listener more often listens casuallywhile pursuing other activities, and may often switch between stationsbased on hearing a short duration item, such as a song, commercial, ortraffic/weather report. Program schedules are quite important totelevision viewers, but are rarely used by radio listeners.

A system is needed that allows a radio listener to better control theaudio content she hears. For example, a listener may need a way toeasily back up and hear something again. This might include, forexample, repeating a piece of information from a weather report or atraffic report, a phone number or other item in an advertisement, afavorite song, or information about a radio contest.

A radio listener may also need a way to pause the radio content whiledoing something else. For example, a listener in a car may wish to pausea song while concentrating on traffic or talking to someone else in thecar. After resuming the song, the listener may listen to the remainderof the song and then may subsequently wish to fast-forward throughcommercials to catch up to the real-time broadcast.

A radio listener may also need a way to record in-progress radio contentto listen to in the future. For example, a listener in a car may belistening to an interview but may need to exit the vehicle before theinterview ends. U.S. Pat. No. 5,345,430 (1994) to Moe, “Recoveryrecorder system, particularly commercial radio/TV broadcast recoveryrecorder system,” discloses continuously recording the last few minutesof a program being monitored to a short-term memory, and transferringit, on operator command, to a long-term storage media. U.S. Pat. No.5,448,534 (1995) to Okada, “Radio with recording and reproducingfunction,” discloses detecting a desired program and starting arecording device to record the program. However, this prior art requiresa user to select a specific radio station or program to record.

Because digitized audio content requires much less memory than digitizedvideo content, it is less expensive to store a significant amount ofradio content. A radio tuner is also less costly than a televisiontuner, so a system that monitors multiple radio stations at once isquite feasible. Because a radio listener is quite likely to beinterested in the programming on multiple radio stations at the sametime, a system with multiple tuners and significant but inexpensivememory is also quite useful.

For example, a system is needed that would allow a user to switchbetween multiple favorite radio stations and rewind to the start of aninteresting piece of content that may have been missed, such as afavorite song or a traffic report. Because detailed radio contentschedules are not typically published in advance, it would also beuseful to have a system that allows a user to identify items ofinterest, that informs the user when an item of interest is beingbroadcast on another station, and that allows the user to switch to thatstation and rewind back to the start of the item. It would also bedesirable to have a system that allows a user to identify desirablecontent and automatically save a copy of that content as it isbroadcast. A system is also needed that provides different sets of thesepreferences for different radio listeners, in a single radio.

Because a user often turns a radio on (or switches to the radio fromanother source such as a CD player) during undesirable content such as acommercial break, or after the start of desired content such as afavorite song, the user needs a system that allows listening to radiocontent that was broadcast before the radio was turned on.

Since radio listeners frequently sing along with favorite tunes inlocations such as the shower and the car, a user may wish to sing alongwith a radio in a karaoke mode.

A system is also needed to recommend a set of radio stations to a user.This would be particularly useful for traveling users or users new to anarea. Such a system might allow a radio listener in a rental car orhotel to automatically search a database of radio stations and find oneor more that matches his tastes. A driver on a long trip may need asystem that automatically monitors available radio stations and comparesthe content with his likes. A user of a radio in a car also needs asystem that provides different sets of favorite stations and otherpreferences when traveling in different locations.

Traveling listeners may also need a system to inform them of venues andevents in an unfamiliar local area. For example, a listener may beinterested in finding out about concerts, celebrity appearances, radiostation events, concert venues, music stores, and the like.

Radio listeners often listen in multiple environments—in different roomsof the house, in the car, in the office, and using a portable system.These listeners need a system that allows them to use the advanced radiofeatures in all of these environments. They need a way to transferinformation, such as radio presets, favorite songs, and favoriteartists, from one environment to another. They need a way to update thefunctionality of the radio without having to purchase a new system. Theyneed a system that allows downloading of favorite songs into a radio.

Radio listeners also need an Internet environment to coordinate theirenhanced radio listening activities. These activities might includefinding out about music, shopping for music related products, andfinding out about radio stations. They may also need a system thatallows them to manage the information used in an enhanced radio system,such as favorite stations, artists, and songs.

A radio listener may also need a way to more easily respond to radiocontent. For example, a listener may wish to respond to an ad, enter aradio contest, call in to a radio talk show, or make a song request. Theuser may need a system that allows a telephone to be used with the radiosystem.

A radio listener also needs a way to more easily communicate with otherradio listeners. A listener may wish to send information heard on theradio to another person. This information may include an invitation toor information about a concert or other event, a link to a radio stationor radio show, a song heard on the radio, or other radio-relatedinformation.

In addition to radio listeners, radio service providers may also benefitfrom this invention. Radio service providers need a system that allowsthem to monitor the habits of their listeners' demographic profile suchas which commercials they repeat, which artists they favor, etc., aswell as what enhanced radio features their users may access.

SUMMARY

These and other advantages are provided by this enhanced radio system(ERS). A main aspect of this invention is simultaneously storing thecontent from multiple radio receivers. Another aspect of this inventionis allowing the multiple receivers to be tuned to radio stations basedon stations chosen as favorites by the listener, based on recentlyplayed stations, and based on scanning for new stations. Another aspectof this invention is allowing a listener to quickly select output fromthe stored content of any of the receivers. A further aspect is allowinga listener to pause, resume, or skip backwards or forwards in timewithin any of the stored content, including allowing a listener to hearradio content broadcast prior to switching to a station. Another aspectof this invention is allowing a listener to record radio content, ordownload other audio content, and quickly access it later. Yet anotheraspect of this invention relates to providing a karaoke feature, withthe removal of vocal tracks and the display of lyrics for broadcastsongs.

Other aspects of this invention relate to the collection and use of userpreferences. A listener may be allowed to rate specific content orgroups of content. The system may recognize and notify the listener ofpreferred content when it is broadcast on a station that the listener isnot currently listening to. The system may recognize and automaticallyskip over disliked content when it is played on a station the user islistening to. The system may recommend radio stations to a listener. Thesystem may recommend local events and facilities to a listener.

Still further aspects of this invention relate to communications. Thisinvention may interact with a mobile or stationary telephone, using theradio's sound system, and may automatically pause or mute the radioduring calls. This invention may allow a listener to send and receivemessages with another listener, including recorded radio content. Thisinvention may allow a listener to easily respond to radio content, suchas contests, requests, call-in shows, pledge drives, etc. A listener maypurchase CDs, concert tickets, and other products and services. Thisinvention may include an Internet website, with additional radiofeatures. And this invention may provide monitoring of listener usageand habits to provide a ratings service.

Other aspects of this invention relate to portability andconfigurability. This ERS may be used at home, at the office, in theshower, on the go, in the car, on the boat, or in any other environment.It may be used in multiple environments. And user preferences andprofiles may follow the listener in any of these environments, fromradio to radio.

This system may tune in one or more radio sources, such as broadcastradio, satellite radio, Internet radio, short-wave radio, and radioscanner. The system may employ multiple receivers (e.g., antennas,tuners, etc.), so that the system can monitor multiple radio stations atthe same time. If any of the input signals is analog, it is digitizedand compressed, and then the digital radio signal is stored in memory.

This invention also includes a controller, such as a microprocessor withprogram memory, to control the functions of the receivers, digitizers,and other parts of the system. A user may control the functions of thecontroller using an input device such as a remote control, a voicecontrol, a front panel control, etc. There may also be a display toprovide visual feedback to the user.

Digital audio signals are retrieved from the memory on command from theuser, decompressed, converted to analog signals, and sent to an outputdevice, which may include an amplifier, speakers, and the like.

This ERS may be operated in a home or office, in a shower, in a car,truck or boat, or as a portable system carried or worn by the user. Thesystem may also be configurable so that it may operate in multipleenvironments by, for example, allowing the user to use different inputcontrols and different audio output devices.

This invention may provide a number of features beyond what are providedby standard radios today. For example, the system may allow the user tostop, rewind, fast-forward, and resume playing the radio, whilecontinuing to record the radio input. For example, the user may rewindto replay a segment of interest, and then fast-forward to continueplaying the broadcast audio.

The system may allow the user to skip-back or forward a preset interval,such as 30 seconds. This may allow, for example, the user to skip overcommercials in recorded audio.

The system may provide different speed playing. When playing at reducedor increased speeds, it may provide frequency compensation so that thesound is recognizable. The system may support fast or slow playing ineither direction, forward or reverse.

This invention may allow the user to record a portion of the radio inputin memory for later playback. Recording may be based on impulse/command,based on a published schedule of radio content, based on a specifictime/station, or on other criteria. Recordings may also be stored ortransferred to an external analog or digital storage device.

This invention may allow the user to record in-progress content forfuture listening. For example, a user who is interrupted in the middleof an interview segment may record the rest of the interview to listento later, and may record the segment of the interview she heard prior tothe interruption. The amount of time recorded may be default timesbefore and after the current playback point, e.g., 5 minutes, 10minutes, etc., or may be determined by the user.

The system may provide preset stations. Stored radio programs may beavailable as preset stations separate from the stations from which theywere recorded.

The system may provide continued and continuous recording of allfavorite stations while the radio is turned off, or while the user islistening to another audio source such as a CD player. When the radio isturned on or switched from the alternate source, the user may be allowedto replay content that was broadcast while the radio was not playing,from any of the favorite stations.

While the content from multiple radio stations is being simultaneouslystored in memory, the system may employ a priority scheme toautomatically determine how much memory to make available for eachstation, and therefore how far into the past the user may rewind whilelistening to content from that station. The priority may be based on anumber of factors, such as whether the station is currently beingplayed, how long in the past the user most recently listened to thestation, a user-assigned priority or minimum storage time, the mostrecent playback point for the station within its assigned memory, andany number of other suitable factors.

This invention may allow identification of specific pieces of audiocontent, such as songs and commercials. The system may allow the user toindicate (e.g., by pressing a button or other control) that a piece ofcontent has begun or ended. The system may also recognize the start orend of content based on silence, changes in audio characteristics, orother cues in the audio. For example, the system may measure thefrequency and power content of the audio signal, and recognize newcontent based on changes in harmonic content, rhythmic content, etc.

The system may recognize a piece of content that has previously beenidentified. The user may be allowed, for example, to name a piece ofcontent, and to identify the type of content (song, commercial, talk,etc.) The system may create a unique signature of the audio signal of aparticular piece of content, and use that signature to recognize thatcontent on future occasions. Signatures may be created separately in anexternal system and downloaded from the external system into an ERS.Also, information sent either in-band with the audio or in a separatechannel (e.g., over the Internet) may identify the content currentlybeing broadcast. The system may include a separate receiver to receivethe separate information signal.

The system may allow the user to rate a piece of content. For example,the user may be able to specify a like or dislike for a particular songor commercial, or to indicate a level of interest. The user may also tobe able to rate a specific musical artist, station, radio show, andother sets of content. The system may be configured to skip overundesirable content. The system may be configured to automatically savea copy of desirable content. The configurations of which content isdesired or not desired, and whether to find, skip, or save such contentmay also be different for different users of the same enhanced radio. AnERS may allow multiple users to create sets of preferences and to savethem and restore them.

This invention may include multiple radio inputs. The radio signals fromeach input may be simultaneously digitized and recorded. For example,the user may be allowed five favorite stations in a system with sixtuners. In this way the system may always be recording the favoritestations and the most recently tuned station in addition to whateverstation the user is currently listening to. The user may tune to any ofthe favorite stations at any time, and be able to rewind to content thatmay have been otherwise missed. For example, the user could tune to astation in the middle of a song and immediately rewind to the beginningof the song, as the audio from the song has previously been digitizedand stored to memory. Similarly, the user could rewind to hear a trafficor weather report that was missed, clues and phone number for a radiocontest, details in an ad of interest, or any other content of interest.This invention may also provide a scan feature, briefly playing audiofrom the available radio stations in sequence, allowing the user to stopwhen something of interest is heard, and allowing the user to skip-backto the start of the item of interest.

The system may provide an alert when content of interest is being playedon a different station. For example, when a favorite song or artist isplayed on a station other than the current station, the system maynotify the user, who could tune to that station and rewind to thebeginning of the song. The system may provide a single button to tune tothe station with the most recent content of interest notification.Alternatively, the system may automatically change to the station withthe content of interest, and may automatically rewind to the start ofthe content. The system may automatically save a copy of the content ofinterest when it is recognized. For content that the user dislikes, thesystem may automatically skip over the content or recommend alternativecontent on another station.

The system may compare information about the user's likes and dislikeswith information about radio stations to create recommendations. Theuser may enter information about her likes and dislikes, or thisinformation may be obtained automatically by monitoring the content shelistens to. For example, a recommendation may be provided in any of thefollowing ways: there may be a list of stations that the user may choosefrom; the system may automatically set one or more presets based on therecommendations; or the system may automatically tune to the recommendedstations.

This invention may obtain information about stations in a number ofways. For example, the information may be sent in-band with the radiosignal or delivered concurrently but over a separate communicationschannel. Information may be downloaded into the system from a databaseof station characteristics using, for example, a wireless Internetconnection. Such a database may include, for example, stations, format,geographical reach, program schedules, etc. The system may monitor thecontent of the prospective station and compare its content with thesignatures of the content the user has rated.

Radio recommendations might be especially useful to a traveling user whois not familiar with local stations. For example, these features may bebuilt into a portable ERS. A rental car radio may be equipped with anERS including these features. A user may insert a smart card or otherdevice into the radio to indicate preferences, and the system mayautomatically determine the best matching local stations. Such a systemmay, for example, set the presets, automatically tune, record, orotherwise make the recommended content available to the user. The systemmay include a global positioning system (GPS) unit to determine theuser's current location as an index into a database of radio stations,and then scan the database for stations matching the user's criteria.The system may alternatively scan radio stations using a tuner otherthan the one the user is currently listening to, and compare the contenton each station with signatures indicating the user's preferences. Priorto automatically changing the favorite station presets of the enhancedradio, the system may also allow the user to save the previous settings,so that they may be restored when returning to a familiar area.

The system may provide automatic notification of local concerts,performing artist appearances, signings, radio station events, weather,and other events of interest. This information may be of interest to alltypes of users, including those users who are traveling in an unfamiliarregion. Similarly, the system may provide information about local musicvenues, stores, and other facilities and businesses.

This invention may include a communications device, such as a radiofrequency transceiver, modem, portable memory device, or networkingequipment. This device may be used to allow the system to download auser's profile, download radio station data, and synchronize informationbetween a user's different ERSs in different locations. The device maybe used to update the software in an ERS, to download songs into an ERS,and to report usage information to a ratings service. The system may,for example, use the user's telephone or mobile phone as a link toaccess remote data.

The communications device may be used to download audio content into anERS from another system. This may include individual songs and otheritems, which may be selected for playback at a later time by thelistener. The communications device may also be used as a “virtualtuner.” In this mode, the communications device provides a continuousstream of audio data, which is stored by an ERS as if it were anotherinput station. The listener may select this virtual station for output.While it is selected, the listener may perform any supported functionson the audio, such as pause, resume, fast/slow forward, fast/slowreverse, skip back, skip forward, search, etc.

The communications device may be used to upload audio content to anothersystem. This may include the ability to upload individual songs andother content that were recorded within an ERS. It may also include theability to use the communications device as a real-time output device.Audio data may be streamed to the communications device as it isreceived and digitized by an ERS. The system to which the streamingaudio is sent may have the capability to play back the audio as it isreceived, or to otherwise process it.

The system may provide security features to prevent unauthorized copyingwhen an item is uploaded, downloaded, or saved locally.

The user may have multiple ERSs, to be used in different environments.All of the user's various ERSs may be synchronized. For example, likes,dislikes, and presets may be exchanged between the systems.Synchronization may be Internet based, for example, by allowing the userto upload data from an ERS to a web site, and to download data from theweb site to another ERS.

The user may access an enhanced radio web site using a web browser. Theweb site may provide features such as a shopping for CDs and otherproducts, concert information and ticket buying, trivia questions,contests, music information databases, etc. The web site may provide acomputer desktop radio feature, allowing the user to listen to radio ona personal computer while connected to the Internet. The Internetwebsite may also have advertisements, which may be based on userpreferences, either as determined by the web site, or as uploaded froman ERS.

The web site may also include access to radio station databases andschedules, which may be downloaded to an ERS. Data may be loaded into amobile phone or personal digital assistant, which may be used to loadinformation into an ERS in, for example, a rental car. Data may includesuch information as station names and frequencies, formats, play lists,signatures, schedules, geographical reach, etc.

A two-way communication feature may be included as part of an ERS andmay provide a number of advantages. For example, the user may be able torespond directly to radio advertisements without having to telephone, orthe system may auto-dial a mobile telephone to a phone number includedin the advertisement. Similarly, the user may respond to contests andcall-in shows, and make requests, either directly using the two-waycommunication feature, or the system may auto-dial the radio station tosupport these features. The auto-dialed phone number may be hand-enteredby the user, part of the radio station database, or included ininformation sent as part of or separately from the radio signal. Inaddition, the user may buy CDs, buy concert tickets, participate in livechats, and other features. The user may select these features using avoice command or other types of controls.

The system may also incorporate telephone functions. The system mayconnect with a mobile telephone or a wired telephone service. The systemmay provide telephone audio using the enhanced radio's voice input andaudio output. The system may automatically pause or mute the radio audiowhile a call is in progress.

The system may allow one enhanced radio user to send an instant messageor other electronic message to another enhanced radio user. The messagemay, for example, be text, voice, or a combination. The message mayinclude all or part of content from a radio station, such as a song. Themessage may be otherwise related to radio content, for example includinga link allowing the recipient to easily tune to a specific station orshow. It may include, for example, a signature of a specific song. Themessage may be, for example, an invitation to a concert or other event.

The system may also provide a karaoke mode. In this mode, it may removethe vocal component from the audio signal as it is being played. It mayalso display lyrics of a song as it is being played.

Information may be loaded into an ERS by any number of methods. Forexample, information may be received (and sent) over a wireless link,such as a wireless telephone or paging link. Information may be received(and sent) over a wired link, such as a USB (universal serial bus) port.Information may be loaded via prerecorded media, such as a compact diskor digital versatile disk. Information may be loaded from a smart card,PC Card, or other portable memory device. Information may be receivedand sent via a telephone link. Information may be exchanged over theInternet. Information may be entered by hand.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features of this invention, its nature and various advantageswill become more apparent upon consideration of the following detaileddescription, taken in conjunction with the accompanying drawings, inwhich like reference characters refer to like parts throughout, and inwhich:

FIG. 1 is an illustrative block diagram of one embodiment of an enhancedradio system (ERS) in accordance with the present invention;

FIG. 2 is an illustrative block diagram of the controller of FIG. 1;

FIG. 3A is an illustrative block diagram of radio sources of FIG. 1;

FIG. 3B and FIG. 3C are further illustrative block diagrams ofalternative embodiments of a portion of FIG. 1;

FIG. 4 is an illustrative block diagram of the communications device ofFIG. 1;

FIG. 5A and FIG. 5B are illustrative flowcharts of one embodiment of theenhanced radio method in accordance with the present invention;

FIGS. 6A through 6D are illustrations of various embodiments of an ERSin accordance with the present invention;

FIG. 7 is an illustrative flowchart showing configuration steps of oneembodiment of the enhanced radio method in accordance with the presentinvention;

FIG. 8 is an illustrative flowchart showing additional configurationsteps of the enhanced radio method in accordance with one embodiment ofthe present invention;

FIG. 9 is an illustrative flowchart showing audio control steps of theenhanced radio method in accordance with one embodiment of the presentinvention;

FIG. 10A and FIG. 10B are illustrative flowcharts showing steps relatingto recording of radio content in accordance with embodiments of thepresent invention;

FIG. 11 is an illustrative flowchart showing steps related to allowingaudio content to be downloaded into an ERS in accordance with oneembodiment of the present invention;

FIG. 12 shows an illustrative display screen that may be used forrecording radio content in an ERS in accordance with one embodiment ofthe present invention;

FIG. 13 is an illustrative flowchart showing steps related to selectingfavorite radio stations in accordance with one embodiment of the presentinvention;

FIG. 14 and FIG. 15 are illustrative flowcharts showing steps related toidentifying an item of radio content in an ERS in accordance withembodiments of the present invention;

FIG. 16 is an illustrative data structure that may be used in theidentification of an item of radio content in an ERS in accordance withone embodiment of the present invention;

FIGS. 17A through 17C are illustrative graphs of data that may be usedto identify items of radio content in an ERS in accordance withembodiments of the present invention;

FIG. 18 and FIG. 19 are illustrative flowcharts showing steps related togrouping items of radio content in an ERS in accordance with embodimentsof the present invention;

FIG. 20 is an illustrative display screen that may be used in the ratingof groups of radio content in an ERS in accordance with one embodimentof the present invention;

FIG. 21 through FIG. 24 are illustrative flowcharts showing stepsrelated to recommending radio stations in an ERS in accordance withembodiments of the present invention;

FIG. 25 and FIG. 26 are illustrative data structures that may be used inan ERS in accordance with embodiments of the present invention;

FIG. 27 is an illustrative display screen that may be used in therecommending of radio stations in an ERS in accordance with oneembodiment of the present invention;

FIG. 28A and FIG. 28B are illustrative flowcharts showing steps relatedto recommending local events and facilities in an ERS in accordance withembodiments of the present invention;

FIG. 29A and FIG. 29B are illustrative display screens that may be usedin the recommending of local events in an ERS in accordance withembodiments of the present invention;

FIG. 30 is an illustrative flowchart showing steps related tocommunication features in an ERS in accordance with one embodiment ofthe present invention;

FIG. 31 is an illustrative display screen that may be used in anenhanced radio web site in an ERS in accordance with one embodiment ofthe present invention;

FIG. 32A and FIG. 32B are illustrative block diagrams showing how aportable device may be used with a computer and an ERS in accordancewith embodiments of the present invention for downloading data;

FIGS. 33A through 33C are illustrative display screens that may be usedin a radio response feature in the ERS in accordance with embodiments ofthe present invention;

FIG. 34 is an illustrative flowchart showing steps related to providinga radio response feature in the ERS in accordance with one embodiment ofthe present invention;

FIG. 35 is an illustrative flowchart showing steps related to providinga user message feature in the ERS in accordance with one embodiment ofthe present invention;

FIGS. 36A through 36F show illustrative display screens that may be usedin providing a user message feature in the ERS in accordance withembodiments of the present invention;

FIG. 37 is an illustrative flowchart showing steps for reporting radiousage data in the ERS in accordance with one embodiment of the presentinvention;

FIG. 38 is an illustrative flowchart showing steps for providing akaraoke mode in the ERS in accordance with one embodiment of the presentinvention;

FIG. 39 is an illustrative flowchart showing steps for integrating radioand telephone functions in the ERS in accordance with one embodiment ofthe present invention;

FIG. 40 is an illustrative flowchart showing steps for providing a scanfeature in the ERS in accordance with one embodiment of the presentinvention;

FIG. 41 is an illustrative memory map for one embodiment of the ERS inaccordance with one embodiment of the present invention;

FIG. 42 is an overview of enhanced radio features in accordance with oneembodiment the present invention;

FIG. 43 is a block diagram of an embodiment of an ERS in accordance withthe present invention;

FIG. 44 is an illustrative flowchart showing steps of a main executionthread in the ERS in accordance with one embodiment of the presentinvention;

FIG. 45 is a block diagram of an illustrative data structure that may beused to track stations that are monitored in the ERS in accordance withone embodiment of the present invention;

FIG. 46 is a block diagram of an illustrative data structure that may beused to track playback status in the ERS in accordance with oneembodiment of the present invention;

FIG. 47 is an illustrative flowchart showing steps of an audio inputthread in the ERS in accordance with one embodiment of the presentinvention;

FIG. 48 is an illustrative flowchart showing steps of an audio outputthread in the ERS in accordance with one embodiment of the presentinvention;

FIG. 49 is an illustrative flowchart showing steps of an event handlingprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 50 is a block diagram of an illustrative data structure that may beused to maintain audio data in the ERS in accordance with one embodimentof the present invention;

FIG. 51 is an illustrative flowchart showing steps of a memoryallocation process in the ERS in accordance with one embodiment of thepresent invention;

FIG. 52A is an illustrative flowchart showing steps of a configurationprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 52B is an illustrative flowchart showing steps of a processallowing multiple sets of configuration data in the ERS in accordancewith one embodiment of the present invention;

FIG. 53 is an illustrative flowchart showing steps of a station changeprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 54 is an illustrative flowchart showing steps of another stationchange process in the ERS in accordance with one embodiment of thepresent invention;

FIG. 55 is an illustrative flowchart showing steps of a playback adjustprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 56 is an illustrative flowchart showing steps of an audio jumpprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 57 is an illustrative flowchart showing steps of a mark positionprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 58 is an illustrative flowchart showing steps of a save contentprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 59 is an illustrative flowchart showing steps of a playback savedcontent process in the ERS in accordance with one embodiment of thepresent invention;

FIG. 60A is an illustrative flowchart showing steps of an upload contentprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 60B is an illustrative flowchart showing steps of a downloadcontent process in the ERS in accordance with one embodiment of thepresent invention;

FIG. 61 is an illustrative flowchart showing steps of a scan process inthe ERS in accordance with one embodiment of the present invention;

FIG. 62A is an illustrative flowchart showing steps of a stop scanprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 62B is an illustrative flowchart showing steps of a pause scanprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 63 is an illustrative flowchart showing steps of an initiate searchprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 64 is an illustrative flowchart showing steps of a search matchprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 65A is an illustrative flowchart showing steps of a turn on processin the ERS in accordance with one embodiment of the present invention;

FIG. 65B is an illustrative flowchart showing steps of a turn offprocess in the ERS in accordance with one embodiment of the presentinvention;

FIG. 66 is an illustrative flowchart showing steps of a listen toalternate audio source process in the ERS in accordance with oneembodiment of the present invention;

FIG. 67 is an illustrative flowchart showing steps of a process tocreate a signature for an item of audio content in the ERS in accordancewith one embodiment of the present invention;

FIG. 68A is a block diagram of an illustrative data structure that maybe used to hold signature data for a radio station in the ERS inaccordance with one embodiment of the present invention;

FIG. 68B is a block diagram of an illustrative data structure that maybe used to hold signature data for an item of audio content in the ERSin accordance with one embodiment of the present invention;

FIG. 69 is an illustrative flowchart showing steps of a process tocompare a signature for an item of audio content with signature datastored for a radio station in the ERS in accordance with one embodimentof the present invention;

FIG. 70 is an illustrative flowchart showing steps of a process tosearch for an item of audio content based on signature data in the ERSin accordance with one embodiment of the present invention;

FIG. 71 is an illustrative flowchart showing steps of a process to checkfor matching audio content in incoming audio data based on signaturedata in the ERS in accordance with one embodiment of the presentinvention;

FIG. 72 is an illustrative flowchart showing steps of a process tosynchronize data between another device and the ERS in accordance withone embodiment of the present invention;

FIG. 73 is an illustrative flowchart showing steps of a process toautomatically set favorite stations in the ERS in accordance with oneembodiment of the present invention;

FIG. 74 is an illustrative flowchart showing steps of a process toinclude a removable memory device in the ERS in accordance with oneembodiment of the present invention;

FIG. 75 is an illustrative flowchart showing steps of a process toprovide security features in an ERS in accordance with one embodiment ofthe present invention;

FIG. 76 is an illustrative flowchart showing steps of a process to savein-progress content in the ERS in accordance with one embodiment of thepresent invention;

FIG. 77A illustrates an embodiment of a faceplate of a 3D Radioaftermarket car stereo system;

FIG. 77B illustrates an embodiment of a multi-tuner radio;

FIG. 78 shows an embodiment of a radio with button inputs installed inan automobile dashboard;

FIG. 79 shows an embodiment of a multi-tuner radio installed in anautomobile dashboard and a plurality of microphones;

FIG. 80 shows an embodiment of a radio installed in an automobiledashboard and gesture pads for user input;

FIG. 81 shows a logical flow diagram of an illustrative embodiment forcontrolling a multi-tuner radio;

FIG. 82 shows an embodiment showing components of the multi-tuner radio;and

FIGS. 83A-83C show an embodiment showing components of the multi-tunerradio.

DETAILED DESCRIPTION

The present invention is such an enhanced radio system (ERS). Asdescribed above, it can provide many functions not available in radiostoday. An overview of an embodiment of an ERS in accordance with thepresent invention is illustratively shown in FIG. 42.

Radio listener 4202 may have access to many new features. Multiple radiostations 4204 from one or more radio sources may be available. Multiplereceivers 4206 may simultaneously receive the multiple radio stations4204, and store them digitally into buffers 4208 in computer digitalstorage device 4209, storing the most recent several minutes of each.One of the buffers may be used to provide an audio output 4210 for thelistener 4202. The listener may choose a subset of the available radiostations 4204 and assign them to presets 4216, and the system willcontinuously monitor those favorite stations, storing recent contentfrom each into buffers 4206. The system may continuously monitor themost recently listened station or stations 4215, storing recent contentfrom each into buffers 4206. And the system may allow the listener toscan through all available stations, while tuning ahead to each beforeit is played for the listener, and storing its content into the one ofthe buffers 4206. The listener may use audio controls 4212 on the audiofrom any station as it is played. The listener may pause and resumeplay. The listener may skip back to earlier content, even content thatwas broadcast prior to when the user started listening to the station.And the listener may skip forward over content that is not of interest.

The listener may record songs 4218 and other content from the radio andreplay them later, or download songs from other sources. The listenermay rate songs 4248. At a later time, the system may use the listenerratings to act on songs and other content that are broadcast. If a songthat the listener likes 4246 is broadcast on a station that the user isnot listening to, the system may notify the user or automatically switchto the song, and the listener may hear the song from the beginning. If asong that the listener does not like 4247 is broadcast, the system mayautomatically skip over it. The system may provide a karaoke mode 4240,allowing the listener to sing along with a song.

The system may interface with a telephone 4244. The telephone 4244 mayuse the radio's speakers and microphone. The radio broadcast may beautomatically muted or paused when a call is in progress. The listenermay send messages 4242 to other listeners and receive messages fromother listeners, and the messages 4242 may include text, voice, andcontent recorded from the radio. The listener may respond to radiocontent, such as contests 4224, commercials, call-in shows, pledgedrives, and other radio content. When traveling 4220, the system mayrecommend radio station, local events, and local facilities. Thelistener may be able to access features of this invention on theInternet 4226, including setting preferences, and downloading a listenerprofile.

The ERS may be accessed in any location where the listener wishes tolisten to radio. This may include at home 4228, at the office 4230, inthe shower 4232, on the go 4234, in the car 4236, or in the boat 4238.Listener preferences and profiles may follow the listener wherever hegoes. Listener actions may be reported to a radio rating service 4222,to collect information on what radio content and features are mostpopular.

Turning to FIG. 1, an embodiment 10 of this ERS invention is shown. Oneor more radio sources 100 may be supported. These sources may bebroadcast radio, satellite radio, Internet radio, or other such sources.A radio receiver 110 is provided to receive the input signals from eachsource. This may be, for example, an antenna and a tuner. It may also beequipment to receive audio data from the Internet, and may include atelephone, wireless, or cable modem, a computer, and software. Multipleradio receivers may be provided for a single radio source. For example,the system may include one antenna and several tuners.

One or more digitizers 115 may be provided for each analog input. Thesedigitizers convert the received analog audio signal into a stream ofdigital data that may be stored in a memory device 120. A digitizer isnot required for digital audio sources, such as Internet and digitalsatellite radio. Multiple radio receivers may share a single digitizer.The output of the digitizer 115, or the output of digital radioreceivers 110, may be stored in memory 120. Memory 120 may be anysuitable memory device, such as random access memory, static memory,disk drive, or other suitable electronic, magnetic, optical or otherstorage device.

The functions of the radio receivers 110 and digitizers 115 may becontrolled by a controller 145. The controller 145 may have memory tostore software and a processor to run software. The controller 145 mayreceive user commands from user controls 140 and display information forthe user on optional display device 150. In embodiments in which theradio receiver 110 has a processor, such as to receive Internet radio,controller 145, user controls 140, and display device 150 may beincluded with radio receiver 110.

The user may also direct controller 145, using user controls 140, tosend digital audio data from memory 120 to digital-to-analog converter125, and to send audio signals from digital-to-analog converter 125 toaudio output 130. Audio output 130 may include, for example, amplifiers,speakers, headphones, and the like. User controls 140 may includebuttons, knobs, a remote control, a voice input device, or anycombination of these and other types of inputs.

The system may also include optional communications device 155. This mayinclude, for example, a modem (e.g., wireless, telephone, cable, digitalsubscriber line (DSL), etc.), a wireless transceiver such as a pagingtransceiver, computer networking equipment (e.g., a router, a hub, anEthernet transceiver, etc.), a portable memory device (e.g., a flashmemory card, a smart card, a personal digital assistant (PDA), etc.), orother communications devices. Controller 145 may send and receiveinformation from one or more external systems using communicationsdevice 155, and store this information in local memory, such as memorywithin controller 145.

The system may include optional global positioning system device 160.This device may determine the geographic location of the ERS using theglobal positioning system satellites, and send that information tocontroller 145.

FIG. 2 shows an illustrative block diagram of controller 145 of FIG. 1.This subsystem may include processor 210, which may, for example be amicroprocessor or other type of processing unit. Controller 145 mayinclude local memory 220. Memory 220 may be used for storing software225, which may run in processor 210. Memory 220 may also be used tostore data 227, which may also be used by processor 210. Controller 145may also include additional control circuitry 230, which may be used,for example, for communication with other subsystems in ERS 10 (FIG. 1)(ERS), and to process data sent to and received from the othersubsystems.

FIG. 3A shows another illustrative block diagram of an ERS and multipleradio sources. This figure shows that a single system may have multipleradio sources 100 (FIG. 1) of multiple types. For example, the systemmay include FM radio antenna 310, AM radio antenna 312, satellite radioantenna 314, cable radio signal input 316, and Internet radio input 318.These types of radio sources are merely illustrative. An enhanced radioembodiment may include any combination of these and other types of radiosources.

FIG. 3B shows an illustrative block diagram of an embodiment 320performing the function of a portion of an ERS of FIG. 1. In particular,an example of radio source 100 is embodied in analog radio signal input325. Radio receiver 110 and digitizer 115 are embodied in tuner 330,demodulator 332, decoder 334, and demuliplexor 336. In this embodiment,digital radio content may be received in analog radio signal input 325.Tuner 330 may tune the carrier frequency for the digital radio content.Demodulator 332 may demodulate the signal from the format modulated whenbroadcast. Decoder 334 may decode the particular digital encoding scheme(e.g., MPEG-2) used to carry the digital data within the signal.Demultiplexor 336 may extract the digital radio data for a particularradio station from several digital radio stations that may bemultiplexed within the single carrier signal. The digital data may thenbe stored into memory 120.

FIG. 3C shows an illustrative block diagram of another embodiment 340performing the function of a portion of an ERS of FIG. 1. In thisembodiment, radio source 100 is embodied in Internet 345, and radioreceiver 110 and digitizer 115 are embodied in modem 350 and computer355. Computer 355 may retrieve radio data from Internet 345 using modem350. Modem 350 may be, for example, a wireless, telephone, DSL, or cablemodem. Modem 350 may also be used as communications device 155. Computer355 may store radio data in memory 120. User controls 140 may beembodied in mouse 360 and keyboard 365. Display device 150 may beembodied in monitor 370. Digital-to-analog converter 125 may be embodiedin sound card 380, and audio output 130 may be embodied in speakers 385.

FIG. 4 shows illustrative block diagram of communications device 155 ofFIG. 1. Communications device 155 may be used by an ERS for receivingdata from and sending data to external systems. Communications device155 may include modem 410, which may be, for example, a telephone,wireless, cable, or DSL modem. Communications device 155 may includewireless transceiver 420, which may be, for example, a pagingtransceiver. Communications device 155 may include computer networkingequipment 430, which may include, for example, appropriate Ethernethubs, routers, Ethernet transceivers, wireless Ethernet transceivers,and the like. Computer networking equipment 430 may connect ERS to anin-home network, for example, which may in turn be used for accessing anexternal network, such as the Internet. Communications device 155 mayinclude portable memory device 440, which may, for example, be a flashmemory card, a smart card, a PDA, etc. Portable memory device 440 may beused for transferring data between an ERS and an eternal system.

In other embodiments (not shown), communications device 155 may beincluded as part of radio receiver 110 of FIG. 1. For example, in an ERSthat accesses Internet radio, the same communications device may be usedto acquire the radio data and to communicate data to and from anexternal system.

FIG. 5A and FIG. 5B show illustrative flowcharts 500 and 550,respectively, of a process used by an ERS (FIG. 1) to acquire and playradio signals. In step 510 of FIG. 5A, an ERS may receive radio input,for example using radio receiver 100. In step 520, the radio input maybe stored in memory 120. If it is determined that the signal is analogin step 511, the signal may be digitized in step 525 prior to storingit. In step 530, a user may be allowed to control the storing of radiodata, using, for example, user controls 140. In step 535, older storedradio data may be overwritten. For example, the radio data may be storedin a circular buffer, and the newest data may continuously overwrite theoldest data as the newest data is written. The size of the circularbuffer may be fixed, it may be variable based on available memory, or itmay be controlled by the user. The size of the circular buffer may bechanged over time.

In step 560 of FIG. 5B, an ERS may convert the stored radio data to ananalog signal, using digital-to-analog converter 125. The analog audiosignal may be output in step 570 to audio output 130. The user may beallowed to control the outputting in step 580, using user controls 140.

Steps 510 through 535 of FIG. 5A may occur in parallel to andindependently from steps 560 through 580 of FIG. 5B. In other words,referring to FIG. 1, while a radio signal is being stored in memory 120,a different radio signal may be extracted from memory 120, digitized andoutput. The different radio signal may have been stored at an earliertime, and may have been acquired from a different radio source, and/orusing a different radio receiver. Controller 145 directs radioreceiver(s) 110 to receive specific sources, and directsdigital-to-analog converter 125 to output a different specific set ofdata, based on input received from user controls 140.

FIGS. 6A, 6B, 6C and 6D show four specific embodiments of an ERS. FIG.6A shows an enhanced radio embodiment 600 configured to be used in anautomobile. Enhanced radio unit/front panel 610 may be mounted in theautomobile dashboard 605 and connected to the automobile antenna 606 andsound system 608 (e.g., amplifiers and speakers). Front panel 610 mayinclude a variety of buttons and other controls, such as volume controls612, tuning controls 614, AUDIO button 616, SOURCE button 618, SCANbutton 620, SEARCH button 622, and PRESET/NUMBER buttons 624. Frontpanel 610 may also include REWIND button 626 for rewinding radiocontent, PAUSE button 628 for pausing radio play, FAST-FORWARD button630 for fast-forwarding through radio content, SKIP-BACK button 632 forskipping back to earlier radio content, PLAY button 634 for resumingradio play, SKIP-FORWARD button 636 for skipping forward to later radiocontent, LIKE button 638 for indicating preferred radio content, DISLIKEbutton 640 for indicating radio content that is not preferred, andRECORD button 642 for recording radio content. Front panel 610 mayinclude display 644 and voice input 648. Any of these controls may alsobe available on a remote control (not shown). Front panel 610 may alsoinclude connector 646 for communications device 155 (FIG. 1). Connector646 may be, for example, a connector for a mobile telephone, or a PCCard slot for a memory card.

FIG. 6B shows an enhanced radio embodiment 650 configured to be usedportably. It includes a main unit 652, which may include controls 654and mounting means 656. Controls 654 may be substantially similar tocontrols shown in FIG. 6A. Mount may be configured, for example, toattach to a user's clothing. Embodiment 650 may also include speakers(e.g., headphones) 658, antenna (not shown), and connection 659 (e.g.,wireless or wired) for sending audio signals from main device 652 tospeakers 658. It may also include connector 662 for connecting tocommunications device 155 (FIG. 1). Connector 662 may be, for example, atelephone connector or an Ethernet connector, or a PC Card slot for amemory card. Embodiment 650 may alternatively contain communicationsdevice 155, which may be, for example, an infrared transceiver or aradio frequency transceiver.

FIG. 6C shows an enhanced radio embodiment 670 configured to be used inan environment such as a home or office. Embodiment 670 may include mainunit 672, which may include front panel 674. Remote control 676 may alsobe used. Main unit 672 may be connected to speakers 678, recordingdevice 680, antenna 684, or other components of a home entertainmentsystem. Subsystems such as amplifiers and speakers may be incorporatedinto the ERS main device, or they may be external to it, allowing a userto connect to existing equipment. Embodiment 670 may also includeconnector 682 for connecting to communications device 155 (FIG. 1).Connector 662 may be, for example, a telephone connector or an Ethernetconnector, or a PC Card slot for a memory card. Embodiment 670 mayalternatively contain communications device 155, which may be, forexample, an infrared transceiver or a radio frequency transceiver.

FIG. 6D shows an enhanced radio embodiment 690 configured to be used ina shower 692. Embodiment 690 may be designed to be resistant to the heatand moisture found in a shower. It may include keypad 694, display 698and communications device 696. Other components may be sealed inside ofthe unit. For example, embodiment 690 may include a clock 699.

FIG. 7 shows process 700 for configuring the ERS for differentenvironments. In step 710, the system may be configured to be used in astationary environment, such as a home or office. This may includeallowing the system to be connected to a user's home entertainmentsystem. It may include higher quality sound components than might beused in a more mobile environment. It may also include a design that issuited for placement on a shelf, in a rack, in a home entertainmentconsole, or the like. In step 715, the system may be configured to beused in a shower. This may include designing the system to be resistantto heat and moisture. In step 720, the system may be configured to beused in an automobile. This may include configuring the system to bemounted in a car's dashboard and to be connected to a car audio system.It may also include configuring the controls for the convenience of adriver, such as having buttons that are easy for a driver to see andactivate, or including a voice control. In step 730, the system may beconfigured to be portable. This may include using light components anddesigning for durability. It may also include a mounting system that maybe worn, and the ability to connect to headphones or other portablespeaker systems.

In step 740, the user may configure the system to be used in multipleenvironments, so that, for example, a single ERS may be used bothportably or in the car, or in the car or at home. The steps in thisprocess may be performed in any order, and all steps are optional.

FIG. 8 shows more details of step 740 of FIG. 7. In step 810, the usermay be given the ability to change the output device. For example, theuser may be able to easily disconnect the headphones and connect a maindevice to a car audio system, to convert a system from a portableenvironment to the car environment. In step 820, the user may be giventhe ability to change the user input device. For example, the user maybe able to use a front panel in one environment and a remote control inanother. In step 830, different mounts may be provided. For example, thesystem may be mounted both in an automobile dashboard and on the user'sclothing. In step 840, the user may be allowed to change thecommunications device. This may include, for example, connecting to amobile telephone modem in an automobile and connecting to an in-homenetwork at home. In step 850, the user may be given the ability toconnect to different radio sources. For example, the user may connectthe system to a car antenna when the system is mounted in a car, and mayconnect the system to a home network and a cable radio system when usingthe system at home. The steps in this process may be performed in anyorder, and all steps are optional.

The ERS may also be implemented as components in a modular personalnetwork system, as disclosed in U.S. patent application Ser. No.10/645,713 “Modular Personal Network Systems and Methods,” by Michael D.Ellis and Caron S. Ellis, which is hereby incorporated by reference inits entirety. In that invention, multiple personal devices may beconnected via a wireless network. Devices may be added or removed tochange the functions of the system. For example, a radio receiver anddigitizer may be one individual network component. The controller andmemory may be another individual network component. Other individualnetwork components may also include user controls, display device, anddigital-to-analog converter/audio output. In such embodiments, the usermay change individual network components to use the invention indifferent environments. For example, the user controls for a portableERS may be worn on the person, while the user controls for a car ERS maybe mounted in the car. Similarly, the audio output for the personal ERSmay be portable headphones, while in the car the car's audio system maybe used. In such embodiments, software, audio, and other data may bedownloaded into the system from a base station or personal computer.

An ERS may allow a user to control the outputting of the radio signal.FIG. 9 shows process 900 for providing user control of the radio output,and is illustratively discussed in conjunction with the block diagram ofFIG. 1 and the embodiment of FIG. 6A. The steps in this process may beperformed in any order, and all steps are optional. In step 910, theuser may be allowed to pause the radio output, for example by pressingPAUSE button 628. The system may temporarily cease sending an audiosignal to audio output 130. In substep 912, the system may continue tostore the incoming radio signal to memory 120. This may allow the userto listen to that radio content at a later time.

In step 920, the user may be allowed to play or resume the radio output,for example by pressing PLAY button 634. The system may resume sendingan audio signal to audio output 130, and may resume from the same pointat which the user earlier paused. In substep 922, the system maycontinue to store the incoming radio signal to memory 120. This mayallow the user to “catch up” to the current radio content at a latertime.

In step 930, the user may be allowed to skip-back to earlier radiocontent, for example by pressing SKIP-BACK button 632. This feature mayallow the user to skip-back to the start of a song, traffic report,weather report, or other radio content of interest, to listen again to aphone number or clue for a radio contest, to hear public radio pledgeinformation again, or to repeat any other content of interest. Thesystem may immediately begin sending audio signal to audio output 130corresponding to audio that was stored at a time earlier than the audiosignal currently being sent to audio output 130. The amount of time toskip-back may be user-specified, as in substep 932. For example, theuser may be able to choose between skipping back 5, 10, or 30 seconds.The amount of time to skip-back may be predetermined by the ERS, as insubstep 934. For example, the ERS may always skip-back 10 seconds. Theamount of time to skip-back may be content-specific, as in substep 936.For example, the ERS may always skip-back 15 seconds during commercialsand 30 seconds during songs. Or, the ERS may always skip-back to thestart of the currently playing content. The choice of which substep toperform may be user selected or factory defined.

In step 940, the user may be allowed to skip-forward to later storedradio content, for example by pressing SKIP-FORWARD button 636. Thisfeature may allow the user to skip to the end of a commercial, publicradio pledge drive solicitation, or other radio content not of interest.The system may immediately begin sending audio signal to audio output130 corresponding to audio that was stored at a time later than theaudio signal currently being sent to audio output 130. The amount oftime to skip-forward may be user-specified, as in substep 942. Forexample, the user may be able to choose between skipping forward 5, 10,or 30 seconds. The amount of time to skip-forward may be predeterminedby the ERS, as in substep 944. For example, the ERS may alwaysskip-forward 30 seconds. The amount of time to skip-forward may becontent-specific, as in substep 946. For example, the ERS may alwaysskip-forward 15 seconds during commercials and 30 seconds during songs.Or, the ERS may always skip-forward to the end of the currently playingcontent. The choice of which substep to perform may be user selected orfactory defined.

In step 950, the user may be allowed to rewind the radio content, forexample by pressing REWIND button 626. This feature may allow the userto listen to a song or other radio content of interest again. The systemmay immediately begin sending audio signal samples in reverse order toaudio output 130 corresponding to audio that was stored at a timeearlier than the audio signal currently being sent to audio output 130.The user may be allowed to rewind at multiple speeds, as in substep 952.For example, if the user presses REWIND button 626 a second time, thesystem may change to a faster rewind speed, cycling through theavailable rewind speeds as the user repeatedly presses REWIND button626. The audio signal samples may be chosen further apart and/or theaudio signal samples may be shorter in duration if the user chooses afaster rewind speed. The system may provide frequency compensation insubstep 954, so that the audio signal samples are recognizable by theuser even if played at a different speed than they were recorded at. Thesystem may stop rewinding when the user presses REWIND button 626 againafter accessing all available rewind speeds. Alternatively, the systemmay stop rewinding when the user presses PLAY button 634 or PAUSE button628.

In step 960, the user may be allowed to fast-forward the radio content,for example by pressing FAST-FORWARD button 630. This feature may allowthe user to quickly get through a commercial or other radio content notof interest. The system may immediately begin sending audio signalsamples at a higher rate in forward order to audio output 130corresponding to audio that was stored at a time later than the audiosignal currently being sent to audio output 130. The user may be allowedto fast-forward at multiple speeds, as in substep 962. For example, ifthe user presses FAST-FORWARD button 630 a second time, the system maychange to a faster fast-forward speed, cycling through the availablefast-forward speeds as the user repeatedly presses FAST-FORWARD button630. The audio signal samples may be chosen further apart and/or theaudio signal samples may be shorter in duration if the user chooses afaster fast-forward speed. The system may provide frequency compensationin substep 964, so that the audio signal samples are recognizable by theuser even if played at a different speed than they were recorded at. Thesystem may stop fast-forwarding when the user presses FAST-FORWARDbutton 630 again after accessing all available fast-forward speeds.Alternatively, the system may stop fast-forwarding when the user pressesPLAY button 634 or PAUSE button 628.

In step 970, the user may be allowed to slow-play the radio content, forexample by pressing PLAY button 634 while the system is playing radiocontent at normal speed. This feature may allow the user to listen moreclosely to radio content of interest, or to more precisely find a pointof interest in the content. The system may immediately begin sendingaudio signal samples at a slower rate in forward order to audio output130 corresponding to audio that was stored at a time later than theaudio signal currently being sent to audio output 130. The user may beallowed to slow-play at multiple speeds, as in substep 972. For example,if the user presses PLAY button 634 again while already slow-playing,the system may change to a slower slow-play speed, cycling through theavailable slow-play speeds as the user repeatedly presses PLAY button634. The audio signal samples may be chosen closer together and/or theaudio signal samples may be longer in duration if the user chooses aslower slow-play speed. The system may provide frequency compensation insubstep 974, so that the audio signal samples are recognizable by theuser even if played at a different speed than they were recorded at. Thesystem may stop slow-playing when the user presses PLAY button 634 againafter accessing all available slow-play speeds. Alternatively, thesystem may stop slow-playing when the user presses PAUSE button 628. Thesystem may also allow the user to slow-play in the reverse direction,for example, as one or more additional rewind speeds.

While the system is rewinding, fast-forwarding, or slow-playing, thesystem may continue to store new radio content to memory 120. This mayallow the user to “catch up” to the current radio content at a latertime.

The system may allow the user to record a portion of the radio input inmemory 120 (FIG. 1) for later playback. FIG. 10A shows process 1000 forrecording radio content for the user, and is illustratively discussed inconjunction with the embodiment of FIG. 6A. The steps in this processmay be performed in any suitable order, and steps may be omitted ifdesired. In step 1010, the user may be allowed to specify the content tobe recorded. In step 1020, the system may record the content in memory120. For example, the content may be copied from the circular bufferinto a separate area of memory 120. This may involve copying more thanone block of memory, if the content of interest spans the start and endof the buffer in memory, or if the circular buffer is implemented withmultiple blocks of memory.

In step 1030, the user may be allowed to select the recorded content asa “preset” station. If an ERS includes a “preset station” feature,allowing a set number of radio stations to be quickly tuned, e.g., atthe touch of a single PRESET button 624, the system may allow therecorded content to be saved as one of the presets. In other words, thecontent may later be replayed at the touch of a single PRESET button624.

Even if recorded content is not saved as a preset, the system may allowthe user to replay the recorded content at a later time in step 1040.For example, the system may present a list of previously recorded radiocontent items. If the user selects an item from the list and pressesPLAY button 634, the system may begin playing the content item as if itwere currently being broadcast. Controls such as pause, skip-back,skip-forward, etc., may be allowed while the content item is beingplayed. Upon reaching the end of the recorded content item, the systemmay stop, may automatically begin playing the content item from thebeginning, may return to the most recent radio station, or anotherappropriate action.

In step 1050, the user may be allowed to store the content item to anexternal recording device. This may include, for example, recordingdevice 680 shown in embodiment 670 of FIG. 6C. The external recordingdevice may be, for example, a cassette recorder, a CD recorder, or otherdevice capable of storing analog or digital audio. This feature mayallow the user to maximize use of the limited memory 120, while saving amore permanent copy of the desired radio content.

FIG. 10B shows more details of step 1010, allowing the user to specifythe content to be recorded. The steps in this process may be performedin any order, and all steps are optional. In step 1012, the user may beallowed to specify the start and end of the content to be recorded. Forexample, the user may rewind to the start of the content of interestusing REWIND button 626 or SKIP-BACK button 632, and then press RECORDbutton 642 to indicate the start of the content to be recorded. The usermay then use the PLAY button, 634, FAST-FORWARD button 630 orSKIP-FORWARD button 636 to find the end of the content of interest, andthen press RECORD button 642 again to indicate the end of the content tobe recorded.

In step 1014, the user may be allowed to indicate any point during aradio item of interest, for example by pressing RECORD button 642. Thesystem may automatically determine the start and end of the content ofinterest using audio cues. Audio cues may be algorithmically determinedpoints in the audio content, based on, for example, silence in theaudio, changed frequency content of the audio, changed power content ofthe audio, and changed rhythmic content of the audio, combined with thelength of the audio segment. Refer to discussion of FIG. 15 below formore details on audio cues. Cues may have already occurred and may beextracted from radio data stored in memory 120. Cues may also occur atsome time after the user indicates the item to be recorded. The systemmay also use a combination of steps 1012 and 1014, allowing the user tospecify one end point of the content to be recorded and determining theother automatically.

In step 1016, the user may be allowed to specify a radio station, andstart time, and an end time. Instead of an end time, the user may beallowed to specify duration. For example, if an ERS includes a computermonitor 370, keyboard 365, and mouse 360, as shown in embodiment 340 ofFIG. 3C, the system may present a list of radio stations on monitor 370,allow the user to select a station with mouse 360, and then allow theuser to type the start and end time using keyboard 365.

In step 1018, the user may be allowed to select an item from a scheduleof radio programming to be recorded. For example, the system may displaya list of stations on monitor 370 and allow the user to select one withmouse 360. The system may then display a list of programs scheduled onthe selected station, and allow the user to select one of the programsfor recording.

In FIG. 11, flowchart 1100 shows an illustrative process for downloadingaudio content into an ERS, and is illustratively discussed inconjunction with the block diagram of FIG. 1 and the embodiment of FIG.6A. This process may allow the user to incorporate some favorite songsinto the system and play them instead of a radio station at any time,using the resources of the ERS. The user does not need to purchase aseparate recorded music player. In step 1110, the user may be allowed todownload audio content, such as a song, using communications device 155.In step 1120, the audio content may be stored into memory 120. In step1130, the system may allow the user to assign the downloaded audiocontent to one of PRESET buttons 624. In step 1140, the system may allowthe user to replay the downloaded content. If desired, any of thesesteps may be omitted or performed in an alternate order.

FIG. 12 shows illustrative screen 1200 that may be displayed on monitor370 (FIG. 3) to allow the user to select an item to be recorded.Selection 1210 may allow the user to instruct the system to record thecurrent song, as disclosed with regard to steps 1110 and 1120 of FIG. 11above. Selection 1220 may allow the user to instruct the system torecord content based on station, start time, and end time, as disclosedwith regard to step 1130 of FIG. 11 above. Selection 1230 may allow theuser to instruct the system to record a specific radio program scheduledto air on a specific radio station at a specific time, as disclosed withregard to step 1140 of FIG. 11 above.

In FIG. 13 flowchart 1300 is presented, showing an illustrative processused by an ERS to support a preset station feature, illustrativelydiscussed in conjunction with the block diagram of FIG. 1 and theembodiment of FIG. 6A. The steps in this process may be performed in anysuitable order, and any steps may be omitted if desired. In step 1310,the system may allow a user to select one or more radio stations asfavorites. The user may, for example, press and hold one of five PRESETbuttons 624 to set the currently playing radio station as one of fivefavorites. In substep 1312, the user may be allowed to select recordedradio content as a favorite, as discussed previously in conjunction withflowchart 1000 of FIG. 10. In substep 1314, the system may treat one ormore recently tuned stations as a favorite station. For example, thesystem may keep track of the most recently tuned one or two stations.

In step 1320, the user may be allowed to quickly tune to a favoriteradio station. If a radio station was selected as a preset station instep 1310 above, the user may be allowed to quickly select that stationby pressing the same PRESET button 624 that was used to select it as afavorite. If a user has selected recorded content, such as a song, asone of the favorites, then the user may be allowed to quickly accessthat content by pressing the corresponding one of PRESET buttons 624.The system may also have a button (not shown) to quickly access arecently tuned radio station.

In step 1330, an ERS may continuously store content from the favoritestations in memory 120. This may be, for example, in a circular buffer,as in substep 1332. The system may also use other data structures, suchas linked lists of stored audio segments. An ERS may have one tunerallocated to each of the favorite stations, to continuously record themost recent content on that station, even while the user is listening toanother station. For example, the system may include one tuner dedicatedto the station that the user is currently listening to, one tunerdedicated to the most recently tuned station, and one tuner dedicated toeach of six preset stations. Each of these tuners may be independentlytuned to a different source and station. The input from each of thesetuners may simultaneously be digitized and stored into independent areasof memory. The amount of audio data stored for each station may be thesame, or it may be individually configured for each station. Forexample, the system may record the most recent five minutes of audiofrom each of six favorites, plus the most recent ten minutes of audiofrom the previously tuned channel, plus the most recent twenty minutesof audio from the radio station the user is currently listening to.

When the user selects a different radio station and that station is oneof the user's favorites or a station the user has listened to recently,the system may have in memory 120 several minutes of content prior towhen the user selected the new station. In step 1340, an ERS may allowthe user to listen to content broadcast prior to the time the userselected the station. For example, the user may press one of PRESETbuttons 624 to switch to a favorite station, recognize the middle of afavorite song, and use SKIP-BACK button 632 or REWIND button 626 tobegin playing at the beginning of the song. The system will continue torecord the input from the newly selected station into memory 120, andmay also continue recording the input from the previous station.

The system may also keep track of user radio preferences, and may havethe ability to recognize specific content items, such as songs, that theuser may like. In step 1350, the system may monitor favorite stations(e.g., preset stations and recently tuned stations) for content ofinterest, i.e., content that matches the user's preferences. This mayinclude step 1352 in which the user is allowed to specify contentpreferences. For example, a user may specify specific songs, artists,radio shows, types of content (e.g., traffic or weather reports),categories of music, or other content, and specify a level of like ordislike for that content. For example, the user may press LIKE button638 or DISLIKE button 640 while a song is playing to indicate apreference for or against the song. In an embodiment with a personalcomputer, the system may present a screen such as screen 2000 of FIG.20, discussed below, to enable the user to specify content preferences.User preferences may be loaded using communications device 155. Thesystem may also determine user preferences automatically by monitoringwhat content the user listens to.

In substep 1354, the system may recognize content of interest on one ofthe monitored radio stations. This may be based on a number of factorsincluding a schedule of events for the monitored station, identificationinformation sent with the radio content, or matching a stored “audiosignature” against the incoming content. An audio signature may becreated, for example, by sampling the power level of 16 differentfrequencies at several different offsets from the start of the song. Amethod of creating and recognizing audio segments using an audiosignature is disclosed in U.S. Pat. No. 5,612,729 (1997) to Ellis etal., “Method and system for producing a signature characterizing anaudio broadcast signal,” which is hereby incorporated by referenceherein in its entirety.

At fixed intervals, e.g., thirty times per second, the system maycalculate a 16-bit signature value representative of the audio at thatpoint in time. Each of the 16 bits may represent whether the power levelof a specific frequency band is increasing or decreasing at that pointin time. The system may also generate a 16-bit mask value at each of thesame times, with each bit in the mask value determining whether thecorresponding bit in the signature word is considered reliable.

To create a signature for a song, the system may take a number ofsignature/mask pairs at various offsets from the start of the song. Oneof the signature words may be considered the “keyword,” and may beselected based on providing the most likely correct match. The systemmay store the offset of the keyword from the start of the audio segment.Additional signature/mask pairs may be stored, along with their offsetsrelative to the keyword. Keywords and other signature words may beselected based on run length (how long the signature word is constant),how quickly the signature values change at the end of the run, number ofmask bits set, similarity to other signatures, avoiding the start andend of the segment, and other factors.

To recognize incoming audio, the system may compare signature words fromthe incoming digitized audio against the keyword for all segments ofinterest. When a keyword match is found, the system may then compare theother signature words from the song of interest with the signature wordsin memory corresponding to the incoming audio signal, at the appropriatesignature offsets from the matching keyword. If an acceptable level ofmatching of the complete signature is found, then a match is reported.

Assuming that the signature words are distributed fairly evenlythroughout the song, the song cannot be recognized until after most ofthe song has been broadcast. However, because the audio for the pastseveral minutes is stored in memory 120, the user will be able to listento the song from the beginning after switching to it.

This method of using audio signatures to recognize incoming content ismerely illustrative. Other methods may be used for audio signaturecreation and matching.

After the system recognizes an item of interest, the user may benotified in step 1360. The notification may include the name or otherinformation about the content, or it may just indicate that something ofinterest has been found. For example, an audio notification may be sentto audio output 130. Alternatively or in addition, a message may bedisplayed on display device 150. The notification may also indicate thatthe user may quickly switch to the content of interest, for example bypressing a button, as in step 1362. After the user switches to the newstation, the system may allow the user to skip-back to the start of thecontent of interest, as in step 1364, for example using SKIP-BACK button632. Alternatively, the system may automatically skip-back to the startof the content of interest when the user selects it, as in step 1366.

After the system recognizes an item of interest, it may automaticallyswitch the audio output to the station that broadcast the content instep 1370. In step 1372, the user may be allowed to skip-back to thestart of the content of interest, for example using SKIP-BACK button632. Alternatively, in substep 1374, the system may automaticallyskip-back to the start of the content of interest after automaticallyswitching to the station that broadcast it.

The system may support identification of specific pieces of audiocontent, such as songs and commercials. FIG. 14 is a flowchart ofprocess 1400 for identifying and tracking items of audio content. Thesteps in this process may be performed in any order, and all steps areeach optional. In step 1410 an item of audio content is firstidentified. This identification may be based on user indication or oncues in the audio, as discussed in more detail with respect to FIG. 15below. In step 1420, the item of audio content may be stored, asdescribed in conjunction with FIG. 10 above.

In step 1430, the user may be allowed to enter information about theaudio item. For example, this may include the type of content (song,commercial, weather report, etc.), the name of the item, the artist (forexample, if the item is a song), and the advertiser (for example, if theitem is a commercial). In step 1440, the system may acquire informationabout the item from an external source. The information acquired from anexternal source may be more extensive than that entered by the user, asit may be loaded from a database of detailed information about songs orother content. The information about the content may be acquired fromthe radio signal along with the content itself in substep 1442 (or froma separate radio signal using a separate radio receiver), it may bedownloaded using a communications device 155 (FIG. 1) such as a modem insubstep 1444, or it may be read from a removable portable memory device440 (FIG. 4) in substep 1446. Whether entered by the user or acquiredfrom an external source, the information about the content may be storedin memory 120 (FIG. 1) and associated with the stored content.

The information about the content item acquired from an external sourcemay include a unique identifier, in step 1450. For example, every songthat might be played might be assigned a unique number as an identifier.The identifier may be broadcast with the song. The system may then lookup that identifier in a database of song information to retrieve otherinformation about the song.

In step 1460, a unique audio signature may be associated with thecontent. The audio signature may be generated locally by the ERS insubstep 1462, or the audio signature may be acquired from an externalsource in substep 1464. The audio signature may be stored with the otherinformation about the item of content. In step 1470, the system mayrecognize the item of content when it is broadcast. The item may berecognized when it is broadcast on the station that the user islistening to, or it may be recognized when it is broadcast on anotherstation that the system is monitoring. The item of content may berecognized using the previously stored audio signature, in substep 1474.Alternatively, in step 1472, the item of content may be recognized basedon identification information broadcast with the item of content on theradio station or received via communications device 155 (FIG. 1). Thisidentification information may, for example, be the previously storedunique identifier associated with the content.

In step 1480, the system may allow the user to rate an item of content.For example, the user may specify that he likes or dislikes a particularsong or commercial. The system may also allow the user to specify levelsof interest, such as a strong like or weak preference. In step 1490,when the system recognizes an item of content that the user does notlike, it may automatically skip over that content. For example, if theuser is listening to a radio station a significant amount of time priorto the radio data that is being stored for the same station, the systemmay skip the disliked content and immediately begin playing the contentstored immediately following the disliked content. Alternatively, thesystem may switch to a radio station with more preferred content whendisliked content is recognized. In steps 1492 and 1494, the system maynotify the user or automatically switch when preferred content isrecognized on a station the user is not currently listening to, asdiscussed above with regard to FIG. 13.

FIG. 15 shows more details of step 1410 of FIG. 14, identifying an itemof radio content, and is illustratively discussed in conjunction withthe block diagram of FIG. 3 and the embodiment of FIG. 6A. The steps inthis process may be performed in any order, and all steps are optional.At 1510, the item may be identified based on a user indication. Insubstep 1512, the user may be allowed to indicate the start of the item,for example by pressing LIKE button 642 when listening to the start ofthe item. In substep 1514, the user may be allowed to indicate the endof the item, for example by pressing LIKE button 642 a second time whenlistening to the end of the item. The user may also be allowed to selectthe item from a radio schedule in substep 1516. The schedule may, forexample, be displayed on monitor 370, and the user may click on adesired item in the schedule, using mouse 360.

In step 1520, the system may identify an item at least partially basedon its duration. In substep 1522, identification based on duration maybe combined with other cues. For example, a user may indicate a singlepoint in time during the item, and the system may identify an item basedon duration incorporating the indicated point. The system may usetypical durations of items based on type of content in substep 1524. Forexample, the system may identify commercials that are 30 or 60 secondslong. The system may identify songs that are between three and sixminutes long. The system may assign probabilities to different durationsor ranges of durations, and pick a duration based on other cues and thehighest probability duration.

In step 1530, the system may identify an item based on cues in theaudio. Cues may indicate a specific short event in the audio, such assilence, in substep 1532. In some cases a brief silence may beindicative of a transition between two different content items.Alternatively, an audio cue may be determined by monitoring acharacteristic of the audio for changes that may indicate differentcontent.

For example, in substep 1534 the system may monitor frequency content ofthe audio. The frequency content may be determined, for example, byperforming a Fourier transform on the input audio waveform. Whentransitioning from one item of content to another, such as two songs ora song and a commercial, the frequency content may exhibit significantchanges that may not typically occur within a single item. One song maybe in one musical key and the following song may be in a differentmusical key, or a song may be followed by a commercial that is mostlyspeaking.

In substep 1536, the system may monitor the power content of the audio.The power level, such as the peak power level or the average powerlevel, may change from one item of content to another. For example, theaverage power level may be increased during a commercial.

In substep 1538, the system may monitor the rhythmic content of theaudio. The rhythmic content may be determined using a Fourier transform,similar to the frequency content. One song may have a strong rhythmiccontent that varies from the rhythmic content of a following song. Or, aspoken commercial may not have a strong identifiable rhythmic content.

The different methods of identifying an item of audio content may becombined in various ways. For example, the system may identify severalpossible transition points between two songs, may pick the most likelybased on common durations, and then may allow the user to fine tune theidentification of the start and end point.

FIG. 16 shows an illustrative data structure 1600 that may be used tostore information about a content item. Field 1605 may store theduration (e.g., in seconds) of the item. The duration may also bemeasured in units of data storage required for the item, such as bytes.The record may also store a compression factor if necessary to determinehow to decompress the audio data. Field 1610 may store a pointer to thestored audio content. This may be a pointer to the block of memoryholding the audio data, a pointer to the first block of data if theaudio data is stored in multiple blocks, a list of addresses of multiplememory blocks used to store the audio data, a file name of audio datastored on a disk drive, or other such pointer.

Field 1615 may store the name of the item. This may be, for example, thename of a song, the name of a product advertised, the name of a radioshow or news/information segment, or a name assigned by the user. Field1620 may store the name of the artist, for example if the item is asong. Field 1625 may store the type of content, such as whether the itemis a song, commercial, news show, etc. Field 1630 may store theadvertiser, if the content is a commercial.

Field 1635 may store a unique identifier for the item of content. Field1640 may store an audio signature for the item. It may alternativelystore a pointer to the signature, which may be stored in a separate partof memory 120 (FIG. 1) or other memory. Field 1645 may store a userrating for the item. For example, it may indicate whether the user likesor dislikes the item, and may indicate a level of user preference. Field1650 may store a link to a web site related to the item. Field 1655 maystore a parental rating for the item, such as a content advisory. Field1660 may store the name or identifier of one or more groups that theitem may be a member of, such as music of particular type. These fieldsare merely illustrative, and need not be present in all embodiments.Data structure 1600 may also include other fields if desired.

FIGS. 17A through 17C illustrate data related to the audio signal thatmay be used to identify an item and differentiate it from anotheradjacent item. Graph 1700 of FIG. 17A shows power 1705 vs. time 1710 foran incoming audio signal. This graph shows an initial portion 1712 ofthe audio with one power characteristic, a second portion 1714 of theaudio with a second audio characteristic, and a third portion 1716 ofthe audio with a third characteristic. In this example, second portion1714 corresponds to a period of silence, and third portion 1716 has ahigher peak and average power than first portion 1712.

Graph 1720 of FIG. 17B shows power 1725 vs. frequency (time) 1730 for asample from an audio signal. The time scale of this graph highlights therhythmic content of the audio. From this graph it may be seen that theaudio signal has a significant rhythmic content at about two beats persecond. Aspects of the rhythmic content of the incoming audio may remainconstant throughout a song, and may change when another song begins. Anincoming period with no music may not have a strong rhythmic content.

Graph 1740 of FIG. 17C shows power 1745 vs. frequency 1750 for a samplefrom an audio signal. This graph is based on a shorter sample period anda faster frequency range than graph 1720. The range of frequenciessampled corresponds to the range of frequencies found in voice and musicaudible to human hearing. This graph shows the power present in therange of frequency bands for the audio sample. Aspects of frequencycontent of a song may be fairly constant during the song, and maysubsequently change when another song or a commercial begins.

In FIG. 18, flowchart 1800 shows an illustrative process for supportinggroups of items of audio content. All steps in this process are eachoptional, and may be performed in any suitable order. In step 1810,items of audio content may be grouped. Groups may be created by theuser, programmer, or advertiser, based on a number of criteria. In step1820, a user may be allowed to rate a group. The user may specify a likeor dislike, or a level of like or dislike, for a specific group ofcontent. The system may also monitor the content listened to by theuser, and automatically determine the groups liked and disliked by theuser. In step 1830, the system may automatically recognize an item inthe group when it has been broadcast. For example, the system mayrecognize a specific item as described above, using an audio signature,unique identifier, information broadcast with the item in the radiosignal, program schedule, or other means. The system may then determinethe groups in which the recognized item is a member. Alternatively, thesystem may directly recognize the group itself, for example based on apublished schedule or on information broadcast with the radio signal. Instep 1840, the system may automatically skip over an item that isrecognized to be a member of a group that the user dislikes, when itoccurs on a radio station currently being listened to by the user. Forexample, a parent may define a group in a child's ERS based on anunacceptable parental advisory level, and the system may be configuredto skip over all content in that group. In step 1850, the system maynotify the user when it recognizes an item that is a member of a groupliked by the user when it occurs on a station not being listened to bythe user but that is being monitored by the system. If desired, thisnotification may occur even when the user is performing an activityother than listening to the radio, for example when the ERS is turnedoff, or when the user is listening to an audiotape or compact disk. Instep 1860, the system may automatically switch to the radio stationbroadcasting an item of interest when it is recognized on a station notbeing listened to by the user but that is being monitored by the system,if that item is a member of a group liked by the user. Additionally, thesystem may automatically skip-back to the start of the recognized itemso that the user may hear it in its entirety. If desired, the automaticswitching may occur even when the user is performing an activity otherthan listening to the radio, for example when the ERS is turned off, orwhen the user is listening to an audiotape or compact disk.

FIG. 19 shows more detail of step 1810, the grouping of items of audiocontent, and is illustratively discussed in conjunction with the blockdiagram of FIG. 3 and the embodiment of FIG. 6A. All steps in thisprocess are optional, and may be performed in any suitable order. Instep 1905, groups may be created based on user-specified criteria. Forexample, the user may enter criteria using keyboard 365, mouse 360, andmonitor 370. In another embodiment, the user may specify criteria usingbuttons on front panel 610 and display 644. Criteria may be specifiedusing voice input 648. Criteria may also be specified by allowing theuser to indicate a specific item and creating a group based on acharacteristic of the item.

In step 1910, a group may be based on type of content, such as groupingall commercials, all songs, etc. In step 1915, a group may be based on acategory of content, such as bluegrass music, alternative rock, or othermusic genre. In step 1920, a group may be based on a specific performingartist, and may contain all songs performed by that artist. In step1925, a group may be based a particular radio station, and may containall content broadcast by that station. In step 1930, a group may bebased on a specific radio show, and may contain all content broadcast inthat show. In step 1935, a group may be based on a particular parentaladvisory level.

In step 1940, a programmer may be allowed to specify a grouping. Forexample, a radio station may decide to highlight and group a set ofsongs that may appeal to a subset of its listeners. In step 1945, anadvertiser may be allowed to specify a grouping. For example, anadvertiser may decide to group an ad with several songs that may appealto a targeted subset of listeners.

In step 1950, other criteria may be used to specify a grouping. In step1955, groups may be created based on multiple criteria. This may includeexcluding items that match a criteria, sets of items that meet specificcriteria, and intersections of items that meet multiple criteria.

FIG. 20 shows illustrative screen 2000 which may be displayed on monitor370 (FIG. 3) to allow a user to configure a group. Pull-down list 2010may allow the user to select a specific group, such as a genre of music.In this example, the user has selected alternative rock. Pull-down list2020 may allow the user to enter a rating for the group. In this case,the user has specified that he or she hates alternative rock music. Thesystem may allow the user to enter a preference for or against thegroup, as well level of interest. For example, the user may be allowedto specify a strong or weak like or dislike, or ambivalence toward thegroup.

Selections 2030 and 2040 may allow the user to specify what the systemshould do when it recognizes an item from the group. Specifically,selection 2030 allows the user to specify whether the system shouldautomatically skip items in a group that the user does not like.Selection 2040 allows the user to specify whether the system shouldnotify the user or automatically switch stations when it recognizes anitem that the user likes.

FIG. 21 shows illustrative process 2100 for providing radio stationrecommendations to a user. All steps in this process are optional, andmay be performed in any suitable order. For example, a user may betraveling in an unfamiliar region, and may be listening to the ERS in apersonal or rental car. The user may wish to quickly and easily findstations that match her preferences.

In step 2110 of process 2100, the system may acquire information aboutthe user's preferences. This step is explained in more detail in FIG.22. In step 2120, the system may acquire information about availableradio stations. This step is explained in more detail below, inconjunction with FIG. 23. In step 2130, the system may select one ormore recommended stations from the set of available stations, based onthe user preferences. This may be done, for example, correlating theplay list from each station to the list of songs, artists, and genresselected as likes and dislikes by the user, and choosing the closestmatch or matches. For example, a score may be created for each stationby adding a value for each match to a like and subtracting a value foreach match to a dislike, with each value weighted by the level of likeor dislike specified by the user. A higher value may be added for amusic genre match, a lower value for an artist match, and a still lowervalue may be added for a song match. In step 2140, the system maypresent one or more of the recommended radio stations to the user. Thisstep is explained in more detail below, in conjunction with FIG. 24.

FIG. 22 shows more detail of step 2110 of FIG. 21, acquiring userinformation. All steps in this sub-process are optional, and may beperformed in any suitable order. In step 2210, the user may be allowedto enter user information. For example, a screen such as screen 2000 ofFIG. 20 may be used by the user to specify likes and dislikes. In step2220, the system may determine user information automatically bymonitoring the content the user listens to. For example, the system mayadd points to a specific song, artist, genre, or other type of item orgrouping, based on the user listening to an entire item. The system mayassign additional points if the user rewinds or skips back to the startof an item to hear it in its entirety or to hear it again. The systemmay subtract points if the user skips over an item. In step 2230, thesystem may download user information. For example, the user may haveentered preferences in a web site, and the system may access that website using communications device 155 (FIG. 1) to obtain thatinformation. The system may also download user information from anotherERS that the user may have previously used. The system may alternativelyload the user information from a portable memory device 440 (FIG. 4),such as a flash memory card, a smart card, a PDA, or the like, in step2240. The user may have loaded the information into the portable memorydevice 440 from another ERS. Portable memory device 440 may be used tohold a user profile, and may be loaded into multiple ERSs as they areused by the user, so that the user preferences may be available in eachlocation.

FIG. 23 shows more detail of step 2120, acquiring information aboutavailable radio stations, and is illustratively discussed in conjunctionwith the block diagram of FIG. 1. All steps in this sub-process areoptional, and may be performed in any suitable order. In step 2310, thesystem may acquire information about available radio stations frominformation sent with the radio station the user is listening to. Forexample, information about the radio station may be embedded in theradio signal, and the system may extract that information and store it.The signal may also include information about other stations that theuser is not listening to, but which may be available. The system maycollect this information over time as it is sent to create a list of allavailable radio stations.

In step 2320, the system may acquire information about available radiostations using a radio receiver not currently being used to play thestation the user is listening to. For example, the system maycontinuously scan the radio spectrum to find each receivable station.When a station is found, the system may read any information that may beembedded in the signal identifying the name of the station, the playlist, the genres of music played, etc. Alternatively, the system maystay tuned to each station it finds for a period of time and check forany signatures that may match content the user's likes or dislikes.

In step 2330, the system may download a database of radio stations. Thesystem may use communications device 155 (e.g., as shown in the blockdiagram of FIG. 4, modem 410, wireless transceiver 420, networkingequipment 430, or portable memory 440). The system may download thedatabase from a central server, a web site, another ERS, or otherrepository. The database may include, for example, a record for eachradio station in the country. For each radio station, it may include thebroadcast frequency, call letters, station format, list of artists andsongs played (i.e., a play list), a schedule of programming, thegeographical region served by the station, and any other relevantinformation.

In step 2340, the system may use global positioning system monitor 160to determine the user's location. The location may also be determined byother means, such as by allowing a user to enter it, or by monitoringthe radio stations that may be received and comparing them against thegeographical region field in the radio station database.

In step 2350, the system may use the current location to filter thedatabase of radio stations. For example, if the database includes ageographical region field for each station, the system may compare thecurrent location with this field and exclude radio stations that do notserve the current location. If the ERS is used in a car, the system mayalso monitor the current route, or future routes that may be planned bythe user, to determine if a radio station will be accessible for asignificant period of time.

FIG. 24 shows more detail of step 2140, presenting the recommended radiostations to the user. All steps in this sub-process are optional, andmay be performed in any suitable order. In step 2410, the system maydisplay a list of recommended radio stations. For example, the list maybe displayed on monitor 370 (FIG. 3) or display 644 (FIG. 6A). The usermay be allowed to scroll or page through the list if it does not fit ona single display screen. In step 2420, the user may be allowed to selectfrom the displayed list of radio stations, for example using mouse 360(FIG. 3), keyboard 365 (FIG. 3), a button on front panel 610 (FIG. 6A),voice input 648 (FIG. 6A), or remote control 676 (FIG. 6C). When theuser selects an item from the list, the system may immediately switch tothat station, may display more information about the radio station, mayassign the radio station to one of the enhanced radio presets, or maytake other suitable action.

In step 2430, the system may automatically set one or more presets basedon the set of recommended radio stations. For example, the system mayset all available presets based on the stations which best match theuser's preferences. The system may assign the single best station to asingle preset. Or the system may allow the user to specify how manypresets to assign automatically.

In step 2440, the system may automatically begin playing audio from oneof the recommended radio stations. In step 2450, the system mayautomatically record content from one of the recommended stations. Thatmay include continuously monitoring the station and storing itsdigitalized audio to a circular buffer.

FIG. 25 shows illustrative data structure 2500 for storing userpreferences. It may include field 2510 for storing information aboutmusic formats the user likes. It may include field 2520 for storinginformation about music formats the user does not like. It may includefield 2530 for storing information about talk formats the user likes. Itmay include field 2540 for storing information about talk formats theuser does not like. It may include field 2550 for storing informationabout performing artists the user likes. It may include field 2560 forstoring information about performing artists the user does not like. Itmay also include one or more fields 2570 for storing information abouthow the user's preferences change over time, for example if the userlikes listening to different types of content on different days of theweek or at different times of the day. All fields shown are optional,and other information relating to the user's preferences may be stored.If desired, the ERS may store the preferences for multiple users.

FIG. 26 shows illustrative data structure 2600 for storing informationabout a radio station, for example in a radio station database. Field2610 may store the station call letters or other identifying name. Field2620 may store the format of the radio station, for example as a textstring, or as a selection from a table of known formats. Field 2630 maystore a list of performing artists typically played by the station.Field 2640 may include a schedule of programs airing on the radiostation. Field 2650 may include information about the geographicalregion served by the radio station. Field 2660 may store the broadcastfrequency, or other information necessary for receiving the station.Field 2670 may include the telephone number of the radio station. Allfields shown are optional, and other fields may be included in the radiostation database as desired.

FIG. 27 shows illustrative display screen 2700 which may be used topresent recommended radio stations to a user. Recommended station list2790 may be presented to the user. If more stations are recommended thanwill fit onto a single screen, the system may allow the user to scrollor page to view additional selections. Each selection may includeinformation such as broadcast frequency 2710, call letters 2720, andstation format 2730. Each selection may also include on-screen buttons2740 that may be selected by the user to immediately start listening tothe station, buttons 2750 to view a schedule of programming on thestation, and buttons 2760 to view a play list for the station. Otheritems may be shown on screen 2700 as well. This screen may be displayedin different formats depending on the characteristics of display device150 and user controls 140 of FIG. 1.

FIG. 28A shows illustrative process 2800 for recommending local eventsto a user, and is illustratively discussed in conjunction with FIG. 1.The steps of this process may be performed in any suitable order, andany steps may be omitted if desired. In step 2805, the system mayacquire user information, such as user preferences. Flowchart 2110 ofFIG. 22, discussed above, shows an illustrative process for acquiringuser preferences. In step 2810, the system may acquire geographicposition information, for example using global positioning systemmonitor 160, or by monitoring which radio stations are available andcomparing them with a database of radio stations and geographicalregions served by them. In step 2815, the system may acquire informationabout local events. Events may include concerts, celebrity appearances,signings, radio station events, contests, etc. Event information may beacquired using communications device 155. In step 2820, the system mayselect one or more recommended events. Events may be selected bycomparing information about each event with user information, andselecting events that most closely match user preferences. In step 2825,the system may present one or more recommended events to the user, forexample on display device 150.

FIG. 28B shows illustrative process 2850 for recommending localfacilities to a user, and is illustratively discussed in conjunctionwith FIG. 1. The steps of this process may be performed in any suitableorder, and any steps may be omitted if desired. In step 2855, the systemmay acquire user information, such as user preferences. Flowchart 2110of FIG. 22, discussed above, shows an illustrative process for acquiringuser preferences. In step 2860, the system may acquire geographicposition information, for example using global positioning systemmonitor 160, or by monitoring which radio stations are available andcomparing them with a database of radio stations and geographicalregions served by them. In step 2865, the system may acquire informationabout local facilities. Facilities may include concert venues, touristattractions, radio stations, stores, hotels, restaurants, other localbusinesses, etc. Facility information may be acquired usingcommunications device 155. In step 2870, the system may select one ormore recommended facilities. Facilities may be selected by comparinginformation about each facility with user information, and selectingfacilities that most closely match user preferences. In step 2875, thesystem may present one or more recommended facilities to the user, forexample on display device 150.

FIGS. 29A and 29B show illustrative display screens 2900 and 2920 forrecommending local events to a user listening to an ERS in anautomobile, and are discussed illustratively in conjunction with FIG.6A. Screen 2900 may be shown on display 644 when the user indicates adesire to find local events. The user may be prompted to press a button,such as SEARCH button 622, to begin the search. In display screen 2920,the first search result may be displayed. The Joe Jackson concert 2922may be recommended because the user has a preference for that performingartist. The system may also display prompt 2924 to press FAST-FORWARDbutton 630 to advance to the next search result, and display prompt 2926to press LIKE button 638 to view information about the event. Displayedinformation may include date and time, location, price, where to buytickets, a phone number to obtain additional information, directions tothe concert venue, or other appropriate information. The system may alsodisplay a prompt allowing the user to buy one or more ticketsinteractively. Local facility information may be similarly shown ondisplay 644.

FIG. 30 shows flowchart 3000 of a process to provide communicationfeatures in an ERS, and is discussed illustratively in conjunction withFIG. 1. Any steps from this process may be performed in any suitableorder if desired and any of the steps may be omitted. The system may usecommunications device 155 to provide these features. In step 3005, thesystem may download information about radio stations, such as a radiostation database. In step 3010, the system may download a user profile,which may include user preferences and other user information. In step3015, the system may synchronize data between two ERSs, for example bycopying user preferences, station presets, and other information fromone system to the other. In step 3020, the system may access an enhancedradio web site to perform functions such as retrieve data, upload data,or present a web page to the user. In step 3025, the system may downloadinformation about local events and local facilities. In step 3030, thesystem may allow a user to respond to radio content, such asautomatically telephoning a radio station or advertiser. In step 3035,the system may allow the user to send a message to another enhancedradio user. In step 3040, the system may receive a message from anotherenhanced radio user and present the message to the user. In step 3045,the system may download a software update. In step 3050, the system mayallow a user to download a song or other audio content to store inmemory 120 and play back later. In step 3055, the system may reportusage data to a central facility.

FIG. 31 shows illustrative enhanced radio web page 3100. A user may beable to access web page 3100 using a web browser running on computer355, and it may be displayed on monitor 370 of FIG. 3. Web page 3100 mayinclude link 3105 to view concert information and purchase concerttickets. Link 3110 may allow a user to view information about concertvenues. Link 3115 may allow the user to purchase CDs or other musicproducts. Link 3120 may allow the user purchase other products. Link3125 may allow the user to enter a contest. Link 3130 may allow the userto play a music trivia game. Link 3135 may allow the user to viewprofiles of performing artists. Link 3140 may allow the user to access amusic information database. Link 3145 may allow the user to define hisprofile, including songs, artists, genres, and radio stations that helikes and doesn't like. Link 3150 may allow the user to access a desktopradio feature, to listen to music on the computer. Link 3155 may allowthe user to access a database of radio stations. Link 3160 may allow theuser to view schedules of programs on radio stations. Link 3165 mayallow the user to synchronize user information and other data with anERS. Advertisement 3170 may be targeted based on user preferences andhistory. These links are merely illustrative. Other links may beprovided if desired. Other web page designs are also possible.

FIGS. 32A and 32B are block diagrams showing how an ERS may synchronizedata with another ERS or with an enhanced radio web site. In FIG. 32A,personal computer 3210 may be connected to portable memory device 440 ofFIG. 4. The memory device may be a flash memory card, a smart card, amobile telephone, a PDA, or other such device. Personal computer 3210may connect to memory device 440 via any appropriate connection, such asserial port, infrared, universal serial bus (USB), PC Card bus, or anyother suitable connection. Information, such as a user profile, stationpresets, a radio database, radio station schedules, event information,facility information, music information (e.g., audio signatures,information about songs, artists, genres, etc.), or other suchinformation, may be transferred over the connection from personalcomputer 3210 to portable memory device 440.

As shown in FIG. 32B, portable memory device 440 may subsequentlyconnect to an ERS. The connection may be any appropriate connection,such as PC Card bus, serial port, USB, or infrared. The informationpreviously loaded from personal computer 3210 into memory device 440 maybe loaded into an ERS.

If desired, information may be loaded from an ERS to personal computer3210 using portable memory device 440. If desired, information may beloaded from one ERS to another ERS using portable memory device 440.

FIGS. 33A through 33C show illustrative screens that may be shown ondisplay device 150 (FIG. 1) as part of a two-way response feature. Sucha feature may assist a user in responding to radio content, such as acommercial, a contest, a call-in show, a concert promotion, or the like.This feature may use a mobile telephone connected to an ERS, or othercommunications device 155 (FIG. 1). In screen 3310 of FIG. 33A, the usermay be provided a telephone number 3312 to respond to radio content. Theuser may also be prompted 3314 to press a button to initiate a directconnection. In the case that the user presses the prompted button, thesystem may automatically dial the telephone (e.g., the mobile phone inthe user's car), and make the voice connection through voice input 648and car speakers 608 of FIG. 6A. The radio content may be paused ormuted while the connection is in progress.

In screen 3320 of FIG. 33B, the user may be prompted 3324 to press abutton to purchase concert tickets, which may have been promoted on theradio. If the user presses the specified button, the system may transmitthe request for tickets to a ticket vending service, and display theresponse on display device 150.

Screen 3330 of FIG. 33C shows a prompt 3334 for the user to speak aspecific command to enter a contest that may have been promoted on theradio. If the user speaks the specified command, the contest entry maybe transmitted to the contest facility, and a confirmation may be shownon display device 150.

Flowchart 3400 of FIG. 34 shows a process for providing a radio responsefeature in an ERS. If desired, any of the steps of this process may beomitted or performed in any suitable order. In step 3410, the system mayacquire connection information, e.g., information on how to create acommunications connection with an external service. The information mayinclude, for example, a phone number, a web address, or otherinformation needed to create a connection with the external service. Insubstep 3412, the information may be found in a radio station database.In substep 3414, the information may be acquired from the radio signal.The information may be acquired from a source other than the radiosignal, such as communications device 155 (FIG. 1). Alternatively, theinformation may be hand entered by the user.

In step 3415, the user may be allowed to enter information to allowremote purchasing including payment information, shipping addresses,contact information, and any other information that may be requested orrequired. This information may be entered offline, for example at a website or on a personal computer, and loaded into the ERS. Alternatively,the purchasing information may be entered directly into the ERS.

In step 3420, the system may initiate a connection with the externalservice. This may include auto-dialing a telephone in substep 3422,providing a telephone number to the user (e.g., on display device 150(FIG. 1)) in substep 3426, creating a voice connection (e.g., usingvoice input 648 and speakers 608 of FIG. 6A) in substep 3424, orcreating a data connection in substep 3428. Any of a number of featuresmay be provided over the connection.

In step 3430, the system may allow the user to respond to radio content.In substep 3432, the system may allow the user to respond to acommercial. For example, an offer may be mentioned in the audio of thecommercial, and listeners may be invited to call in. The phone numberfor the advertiser may be broadcast as part of the radio signal andreceived by the ERS. The system may auto-dial the advertiser and allowthe user to respond to the offer.

In substep 3434, the system may allow the user to respond to a publicradio pledge drive. For example, the user may wish to become alistener-member, to make a pledge, or to respond in another way to apledge drive solicitation.

In substep 3436, the system may allow the user to respond to a contest.For example, a contest may be mentioned on the radio, and listeners maybe invited to call in. The phone number to enter the contest may bebroadcast as part of the radio signal and received by the ERS. Thesystem may auto-dial the radio station and allow the user to enter thecontest.

In substep 3438, the system may allow the user to participate in acall-in show. For example, listeners may be invited to call in to aradio show. The radio station phone number may be retrieved from a radiostation database. The system may display the phone number for the radiostation on display device 150 (FIG. 1). Similarly, the system may allowthe user to make a song request to a radio station by auto-dialing theradio station or displaying the radio station phone number for the user.

In substep 3445, the system may allow the user to make a request. Forexample, the user may indicate a desire to make a song request usinguser controls 140 (FIG. 1). The system may automatically dial thetelephone number for the radio station and make an audio connectionbetween the user and the radio station.

In step 3450, the user may be allowed to purchase music. This mayinclude buying recorded music in substep 3452 or buying concert ticketsin substep 3454. The system may acquire a web address from the radiosignal or radio station database, and create a data connection with aweb site offering the music for sale. The system may translate inputcommands from user controls 140 into web commands (e.g., HTTP (HypertextTransfer Protocol) messages) that may be sent to the web server.Confirmation may be displayed on display device 150.

In step 3460, the user may be allowed to participate in a live chat. Thesystem may create a voice link by auto-dialing a radio station, andallow the user to participate in the chat using voice input 648 andspeakers 608 (FIG. 6A).

While any voice response feature is active, the system may automaticallymute or lower the volume of the radio signal. Alternatively, the systemmay automatically pause the incoming radio signal for the duration ofthe voice interaction.

FIG. 35 shows flowchart 3500 of an illustrative process for allowing theuser to send a message to a user of another ERS. Any suitable subset ofthese steps may be performed in any suitable order. In step 3505, theuser may be allowed to send an instant message to another user, whichthe other user may receive and listen to or view immediately. In step3510, the user may be allowed to send an electronic mail message toanother user, which the other user may receive and listen to or view ata later time. In step 3515, the system may create a voice connectionbetween the two users. In any of these cases, the system may allow theuser to specify an electronic address or name for the other user. Thesystem may also allow the user to maintain a list of other users to makesending messages simpler.

In step 3520, the user may be allowed to include media with the message.This may include text entered by the user, a music clip, a voice messagerecorded by the user, or any combination of these and other types ofmedia. In step 3525, the system may allow the media to be contentrecorded from a radio station by the ERS. In step 3530, the system mayallow the user to include a link to a song or other content. The linkmay be a name, a unique identifier, an audio signature, or other typesof links or combinations of such links. In step 3535, the system mayallow the user to include a link to a radio station, such as a broadcastfrequency or set of call letters. In step 3540, the system may allow theuser to include a link to a radio show, which may include a link to thestation airing the show and the name or broadcast time of the show. Whenthe other user receives a link to a song, station, show, or other item,the other user's ERS may allow him or her to easily access that itembased on the information sent in the message. In step 3545, the systemmay allow the user to include a concert invitation. The invitation mayinclude information about the concert automatically filled in by thesystem. The system may allow the user to purchase a concert ticket orother item for the other user and send a confirmation to the other user.In step 3550, the system may allow the user to attach any otherinformation related to music or radio. This may include, for example, aweb site, the user's rating for a song, information from a databaseabout a song, artist, or radio station, or other suitable information.

FIGS. 36A though 36F show illustrative display screens for allowing auser to send a message to another user, and are illustratively discussedin conjunction with the embodiment of FIG. 6A. These display screens maybe shown on display 644. Display screen 3600 of FIG. 36A may be shownwhen the user chooses to send a message. It may include option 3602 tosend an instant message, option 3604 to send an electronic mail message,and option 3606 to create a voice connection. The user may select anoption, for example, by pressing the indicated button on front panel 610or remote control 676 (FIG. 6C), or by speaking a command using voiceinput 648.

Once the user selects an option from screen 3600, for example option3604 for an electronic mail message, the system may show display screen3610 of FIG. 36B. This screen may include option 3612 for including asong clip with the message. It may include option 3614 for including asong link with the message. It may also include indicator 3616instructing the user to press FAST-FORWARD button 630 to advance to thenext screen.

Display screen 3620 of FIG. 36C may include option 3622 for including alink to the current radio station. It may include option 3624 forincluding a link to the current radio show. And it may includeindicators 3626 and 3628 instructing the user to press REWIND button 626to return to the previous screen or FAST-FORWARD button 630 to advanceto the next screen.

Display screen 3630 of FIG. 36D may show option 3632 for includingconcert information with the message. It may include option 3634 forincluding a song web site with the message. Display screen 3640 of FIG.36E may include option 3642 for recording a voice segment to includewith the message.

Display screen 3650 of FIG. 36F may include option 3652 allowing theuser to review the message that has just been created. It may alsoinclude option 3654 to allow the user to send the message to the otheruser.

The display screens and options shown in these figures are merelyillustrative. Other display screens and options may be shown.

FIG. 37 shows flowchart 3700 of an illustrative process to collect andreport enhanced radio usage data. The steps of this process may beperformed in any suitable order, and any steps may be omitted ifdesired. In step 3710, the system may collect information on radiostations that the user listens to. The information may includeinformation on days and times that stations were listened to. It mayalso include information on particular songs, commercials, shows, andother content that the user may have actually heard, as well asindications of content the user may have skipped over.

In step 3720, the system may collect information on enhanced radiofeatures accessed by the user. For example, the system may log eachfeature used, and the day and time the feature was selected.

In step 3730, the system may combine and filter the information toreduce the total amount of data. The information may be combined andsummarized, and information may be filtered out based on the end purposefor the data. Personal data may be removed for privacy reasons. In step3740, the information may be sent to a central facility for analysis,using communications device 155 (FIG. 1).

FIG. 38 shows illustrative flowchart 3800 of a process to provide akaraoke feature, and is discussed illustratively in conjunction with theblock diagram of FIG. 1. The steps of this process may be performed inany suitable order, and any steps may be omitted if desired. In step3810, the system may receive the vocal portion of the audio from a radiostation separately from the rest of the audio signal. Alternatively, theradio station may transmit information indicating the frequencies usedfor the vocal portion of the audio. In step 3820, the system may receivethe lyrics for a song. The lyrics may be received as part of the radiosignal along with the audio signal for the song. Alternatively, thesystem may acquire the lyrics separately using communications device155. In step 3830, the system may indicate the availability of thekaraoke feature to the user when the incoming radio signal supports it,for example on display device 150. In step 3840, the system may allowthe user to select karaoke mode, for example with user controls 140. Instep 3850, the system may remove the vocal portion of the audio. It maysimply ignore the portion of the incoming signal with the vocal, or itmay perform a filter on the signal to remove the vocal frequencies.Preferably, the vocal should be removed as the audio is read from memory120. This will allow the vocal (and lyrics) to be stored in memory, andaccessed later. For example, the user may alternately listen to theaudio both with and without lyrics. In step 3860, the lyrics may bedisplayed, for example on display 644 (FIG. 6A) or monitor 370 (FIG. 3).

FIG. 39 shows flowchart 3900 of an illustrative process for providing anintegrated telephone feature, and is discussed illustratively inconjunction with the block diagram of FIG. 6A. The steps of this processmay be performed in any suitable order, and any steps may be omitted ifdesired. In step 3910, the system may allow a telephone service to beconnected to the ERS. For example, a mobile telephone may be connectedto the system. Alternatively, the system may be connected to a wiredtelephone line.

In step 3920, the system may allow voice dialing. The user may beallowed to create a list of common telephone numbers. The user may beallowed to dial using a voice command using voice input 648. The usermay also be allowed to dial using buttons on front panel 610, remotecontrol 676 (FIG. 6C), or other user controls.

In step 3930, the system may accept telephone input from voice input648. In step 3940, the system may send telephone output to audio output130 (FIG. 1). The system may also perform signal canceling based on thetelephone output to prevent audio feedback or echoes. In step 3950, thesystem may automatically lower the volume of the radio signal or mutethe radio signal while a telephone call is in progress. In step 3960,the system may automatically pause the radio signal for the duration ofthe telephone call.

Other telephone features may also be supported. For example, in step3970, the system may allow a telephone call to be recorded into memory120 (FIG. 1). In step 3980, the system may provide a voice mail feature,using a recorded message from memory 120, and recording the incomingcall into memory 120.

FIG. 40 shows a flowchart 4000 of an illustrative process for providingan enhanced radio scan feature, and is illustratively discussed inconjunction with the embodiment of FIG. 6A. Any steps of this processmay be omitted if desired, and may be performed in any suitable order.In step 4010, the user may be allowed to initiate scan mode. Forexample, the user may press SCAN button 620 on front panel 610 or remotecontrol 676 (FIG. 6C). In step 4020, the system may begin recording oneor more stations scheduled to be selected soon. For example, the systemmay assign five receivers to the scan feature. One receiver may beassigned to the currently selected station, and the other four receiversmay be assigned to the four stations to be selected next. The system mayuse these four receivers to scan for stations in advance of when theywill be played for the user.

In step 4030, the system may switch to the next radio station. Thisincludes substep 4032 of playing audio from the next station. That mayinvolved simply switching from the buffer being used to provide audio tothe audio output device to the buffer being used to collect data fromthe second receiver. In step 4040, a receiver may be reassigned from anold station to an upcoming station. For example, the receiver being usedto receive the most recent station may be used to scan and find the nextavailable station. Alternatively, if the system is configured to recordaudio from the most recently listened radio station, the system may usethe receiver that was being used for the second-most recent station.

In step 4050, the user may be given the opportunity to stop the scan,for example by pressing SCAN button 620 a second time. If the user doesnot stop the scan, the system may pause a short period of time (e.g., asecond or two), and repeat step 4030, scanning to the next station. Ifthe user does stop the scan, the system will not scan to the nextstation. The user may be given the opportunity to listen to audio thatwas broadcast prior to when the audio for the final station beganplaying, in step 4060. In step 4070, the system may reassign thereceivers and buffers used to provide the scan feature to be used forother purposes. If desired, the system may wait a period of time in casethe user decides to resume scanning.

If desired, the user may be allowed to scan in either direction (i.e.,through higher radio frequencies or lower radio frequencies). The usermay also be allowed to scan across multiple radio sources (e.g., bothInternet and radio frequency broadcasts).

FIG. 41 shows illustrative memory map 4100 of data stored in memory 120(FIG. 1). Radio input buffers 4105 may be used to store the most recentradio inputs received from one or more radio stations. This area ofmemory may be assigned dynamically, with different radio stations havingbuffers of different sizes. A new area of memory may be allocated when aradio receiver is tuned to a new station, and the area may be increasedor decreased in size as the user selects or deselects the station orperforms other functions.

Memory region 4110 may be used for stored songs and other contentrecorded from the radio or downloaded using communications device 155(FIG. 1). Memory region 4115 may store information about songs and otheraudio segments, such as names, identifiers, audio signatures, etc.Memory region 4120 may be used to store information about differentgroups of content, such as artists or genres of music. Memory region4125 may store information about radio stations. Memory region 4130 maystore radio station presets. Memory region 4135 may store other userpreferences. Memory region 4140 may store automatically collected usageinformation, such as stations the user has listened to and features theuser has accessed. Memory region 4145 may store a user's contact listfor a messaging or telephone feature. Memory region 4150 may be used tostore software updates for the system. This memory map is merelyillustrative. Other organizations of memory are possible.

Some of the memory may be volatile (subject to loss if the power islost) and some may be nonvolatile (maintained when the power is lost).It may be desirable to store some information, such as radio inputbuffers, in volatile memory, and to store other information, such asuser preferences, in nonvolatile memory. If desired, all memory may benonvolatile.

FIG. 43 shows a block diagram of one embodiment of an ERS. Radiofrequency (RF) input 4301 provides a radio signal to ERS 4300. Thissignal may be, for example from an FM antenna, an AM antenna, or anyother suitable source or combination of sources.

Multiple RF tuners 4302 may acquire the signal from RF input 4301. Thismay be provided by, for example, the Motorola SDR510100 Radio FrequencyFront-End integrated circuit. Another example of a part that may be usedfor tuner 4302 is Philips TEF6700 Car Radio Tuner Front-End for DigitalRF. One instance of tuner 4302 may be provided for every desiredsimultaneous radio input in ERS 4300. For example, ERS 4300 may includeeight instances of tuner 4302, to support six favorite stations, and acurrent and previous station, each of which may be used to select adifferent input source. This configuration can provide an ERS that isparticularly suitable for consumer use. However, other configurationsusing a different number of tuners or favorite stations may also beimplemented.

The tuned signal may be provided over path 4303 to signal-processingunit 4304. The tuned signal may be provided as a baseband audio signal,as an intermediate frequency (IF) signal (as with the Motorola SDR510100in the example above), as a digital signal, or in any other suitableformat. Signal-processing unit 4304 may be, for example, a combinationof Motorola SDR530100 Intermediate Frequency Analog Interface IntegratedCircuit and Motorola SDR540100 Baseband Audio Processor IntegratedCircuit. Another example of a part that may be used forsignal-processing unit 4304 is Philips TEF6892H Car Radio IntegratedSignal Processor. In the case of the Motorola chipset, eachsignal-processing unit 4304 may process the signal from two tuners 4302.If there are eight tuners 4302, there may be four of the Motorolasignal-processing units 4304.

The output from each signal-processing unit 4304 may be provided overpath 4305 to analog-to-digital converter (ADC) 4306. There may be oneADC 4306 for each input signal. If desired, multiple ADCs 4306 may beprovided in a single integrated circuit package, as, for example, in theTexas Instrument ADS8344 16-Bit, 8-Channel Serial Output SamplingAnalog-to-Digital Converter. If desired, ADC 4306 may be integrated intosignal-processing unit 4304.

The outputs from ADCs 4306 may be provided over path 4307 to digitalsignal processor (DSP) 4310. The data may be provided as a serial datastream or in any other suitable format. DSP 4310 may provide controlsignals to tuners 4302, signal-processing units 4304, and ADCs 4306 overpath 4311. If desired, signal-processing unit 4304 may provide controlsignals to tuner 4302.

DSP 4310 may, for example, be the Texas Instrument TMS320C6713Floating-Point Digital Signal Processor. DSP 4310 may have the abilityto execute multiple threads of code in parallel, using technologies suchas hardware interrupts, software interrupts, timers, and prioritizedtasks. DSP 4310 may include direct memory access (DMA) 4312, which maytransfer the audio data received on path 4307, over path 4315 to memory4314. Memory 4314 may be, for example, 128 megabytes of dynamic randomaccess memory (RAM). A removable memory device, such as a flash memorycard, may also supplement memory 4314. If desired, such a removablememory device may be compatible with other types of devices, such asportable music players (e.g., MP3 players), or may be accessible using apersonal computer.

The amount of memory provided may be determined based on the desiredamount of recorded audio to be available for each monitored station, andthe number of stations to be monitored. For example, if the audio werecompressed at a rate of 128 kilobits per second, then 128 megabytes ofmemory would be adequate storage for six favorite stations at tenminutes per station, one previous station with ten minutes of recordedaudio, and a current station with thirty minutes of recorded audio. Agigabyte of storage would allow for the same amount of storage perstation, plus about fourteen hours of saved content, e.g., over 200four-minute songs, plus a significant number of audio signatures.

DSP 4310 may also access memory 4314 without DMA 4312, over path 4316.This may include reading the stored audio data, storing the audio in acompressed format, retrieving the audio data for playback, and any othersuitable data access functions.

ERS 4300 may include audio coder/decoder (codec) 4320. If desired, thecoding and decoding functions may be provided separately. Codec 4320 maybe, for example, the Texas Instrument AIC23 Low Power, Highly IntegratedAudio Codec with Headphone Amplifier. DSP 4310 may interface with codec4320 using path 4321, which may be a serial data path.

Microphone 4330 may provide an audio input to codec 4320, over path4331. Codec 4320 may provide analog audio output to speakers 4324.Appropriate amplification and signal processing circuits may also beincluded. If desired, the audio signal may be sent via path 4323 toaudio output switch 4322. Audio output switch 4322 may also receiveaudio over path 4351 from alternate audio input 4350, which may, forexample, be a compact disk (CD) player. DSP 4310 may control audiooutput switch 4322 and alternate audio input 4350 over path 4352. Theoutput from audio output switch 4322 may be sent via path 4325 tospeakers 4324.

ERS 4300 may include user interface devices in addition to (or insteadof) microphone 4330. For example, DSP 4310 may receive input commandsfrom user controls 4332 over path 4333. User controls 4332 may be, forexample, a pushbutton keyboard or a remote control device. If desired,user controls 432 may be physically located separately from the mainunit of ERS 4300, for example as controls on a steering wheel of anautomobile with a dashboard-mounted ERS. DSP 4310 may send user outputinformation to display 4334 over path 4335, as well as or instead of tocodec 4320.

DSP 4310 may also exchange data with external systems, usingcommunications device 4340, accessed using path 4341. Communicationsdevice 4340 may be, for example, a serial port, a universal serial port(USB), an Ethernet port, an infrared (IR) data port, a telephone modem,a cable modem, a digital subscriber line (DSL) modem, a radio frequencytransceiver, or any other suitable communication device. If desired, ERS4300 may include multiple communications devices 4340.

FIG. 44 shows a flowchart of a main enhanced radio thread 4405 that maybe executed by DSP 4310 of FIG. 43. These actions may be performed, forexample, when ERS 4300 first receives power after being powered off. Allsteps in this flowchart are each optional and may be performed in anysuitable order.

In step 4410, a data structure may be created and initialized for thecurrent station. The ERS may maintain a data structure for each radiostation that is monitored. In step 4415, the first tuner may be set to adefault station. This may be, for example, the station that was thecurrent station prior to powering off the enhanced radio, one of theuser's favorite stations, the lowest frequency station, afactory-selected station, or any other suitable default. In step 4420,an audio input thread may be initiated for the current station. An audioinput thread is a set of operations that may be executed by DSP 4310(FIG. 43) in parallel to main enhanced radio thread 4405, to processincoming audio data for a given radio station.

A similar set of operations may be executed for each favorite stationthat has been previously configured by the user, in loop 4425. In step4430, a new data structure is set up for each of the favorite stations.In check 4435, the favorite station is compared with the currentstation. If they are not the same, a tuner is allocated and tuned to thefrequency of the favorite station in step 4440, and a new audio inputthread is launched for the favorite station in step 4445. This loopcontinues as long as there are more favorite stations to initialize, instep 4450.

Similarly, the last station (previous, or most recently listened to) isinitialized. A data structure may be created for the last station, instep 4455. In check 4460, the last station is compared with each of thefavorite stations. If there is no match, a tuner is allocated and tunedto the frequency of the last station in step 4465, and a new audio inputthread is launched for the last station in step 4470.

In step 4475, an audio input thread is started for the microphone input.This thread will monitor the audio input from the user's spokencommands.

In step 4480, an audio output thread is initiated. This is a set ofoperations that may be executed by DSP 4310 in parallel to main enhancedradio thread 4305, and also in parallel to all of the audio inputthreads, and which processes the audio to be output by the ERS.

After the foregoing, and any other, initialization is complete, theenhanced radio application waits for any event, such as a user command,in step 4485. When an event occurs, the application processes the eventin step 4490. More detail is shown in further figures.

FIG. 45 shows data structure 4500 that may be used to track stationsthat are being monitored. Data structure 4500 may also be used to trackrecorded content, such as songs, that may not be associated with inputtuners. Fields marked with an asterisk in FIG. 45 may not be applicablefor saved content, and may be omitted or left blank. These fields may bein any appropriate order. If desired, some fields may be omitted, andadditional fields may be added as needed. If desired, multiple copies ofdata structure 4500 may be organized into an array or any other suitablestructure.

Field 4505 may be a favorite station number. For example, if the ERSsupports six favorite stations, this field may be a value from one tosix. The ERS may support any suitable number of favorite stations. Ifthe station is not a favorite station, this field may contain a specialvalue, such as zero or negative one. If desired, previously recordedcontent, such as recorded songs, may be assigned as “favorite stations,”so that they may easily be selected. If desired, this field may containtext, such as a station name, or any other suitable type of data.

Field 4510 is a current station flag. This flag is set if this stationis the one that is currently being played back. The content from thestation that is being played back may be different from the content thatis currently being broadcast and recorded. If desired, previously savedcontent may be marked as the current station.

Field 4515 may be a previous station flag. This flag may be set for thestation that was most recently played back, prior to the currentstation. This may include previously saved content. This field is usedto enable the user to easily return to listening to the previouscontent. If desired, the ERS may track more than one previous station,enabling the user to return to more than one previous station. In thiscase, this field may contain a number indicating how many station havebeen listened to since this station was most recently played back.

Field 4520 may contain a tuner number, indicating which of the multipletuners (such as tuners 3402 of FIG. 43) is being used to receive thisstation. This field may be left blank for previously recorded content.Alternatively, it may contain information on the tuner that was used torecord the content. If desired, a communications device (such ascommunications device 4340 of FIG. 43) may be considered a tuner, and anidentifier of that device may be used in this field.

Field 4525 may include tuner setup information. This may includeinformation on the band (e.g., AM or FM), frequency, and any otherinformation necessary to identify and acquire the signal. For previouslyrecorded content, this may include information on the station used toreceive the content. Alternatively, it may include information on thesource of the content (e.g., an Internet Protocol (IP) address of thecomputer from which it was received.).

Field 4530 contains a pointer to the first block of compressed audiodata, to allow access to the start of the content. Field 4535 maycontain a pointer to the last block of compressed audio data, or the onethat was most recently written for content that is currently beingrecorded. Field 4540 may contain the time at which the first block ofcompressed audio data (as reference by pointer 4530) was received,compressed, and stored. For previously saved content, this field may beblank, or it may be the time at which the content was created ordownloaded.

Field 4545 may contain a pointer within the recorded compressed audiodata to the current playback position. For content that is currentlybeing played, this may be the block or position within a block that wasmost recently output or will next be output. For content that is notcurrently being played, this may be a pointer to the block or positionwithin a block that was most recently output or will next be output whenplayback is resumed. If none of the recorded content for this stationhas been played back, this may be a pointer to the oldest content, apointer to the newest content, or a special value indicating that thecontent has not been played.

Field 4550 may contain the time at which this station (or content) wasmost recently played. For the currently selected station, that may thecurrent time, or this field may be left blank. There may be a specialvalue for content and stations that have not been played.

Field 4555 may contain a user priority (or other priority) that has beenassigned to the station. This priority may influence the memoryallocation algorithm for recorded content. This field may be left blankfor previously saved content. Alternatively, it may be used to hold apriority for the content that may be used to determine whether and whenit may be discarded in favor of newly received or recorded content.

Field 4560 may contain a minimum record time for the station. This fieldmay be determined by a user, or otherwise assigned. This value mayinfluence the memory allocation algorithm to determine whether todiscard old audio content for a station when new content is received orrecorded for this or other stations. This field may be left blank forpreviously saved content.

Field 4565 may contain a pointer to related data. This data may havebeen received along with the audio. It may also include synchronizationinformation so that the related data may be associated with the correctportion of the compressed audio data. If desired, there may be a pointerto both the newest and oldest related data. For previously savedcontent, this field may point to data that was received along with theaudio data.

Field 4570 may include any other identifying data. For example, this mayinclude radio station call letters that have been entered by the user orotherwise acquired. For saved content, it may also include a song title,artist name, or any other suitable information.

Field 4575 may include data format information. For example, this mayinclude an indicator of the compression format used with the audio data(e.g., MP3 or AAC). It may include information on the compression rate(e.g., 128 kilobits of compressed data per second.) It may includeinformation on the audio sampling rate (e.g., 48 kilohertz), number ofchannels (e.g., stereo), sample size (e.g., 16 bits per sample perchannel), or any other suitable information about the audio format. Itmay also include information about the format of the related data. Itmay also include information about the format of data in data structure4500, identification of which fields are valid, and any other suitableinformation.

Field 4580 may include a pointer to a station signature, which issignature information that corresponds to the compressed audio data forthis station. The station signature may be collected and calculated asthe audio is received and compressed. The oldest signature data for thestation may be deleted as the oldest audio data is deleted. Field 4585may contain a pointer to a list of audio cues that may have beendetected on the station. These cues may include information such assilence, switch to talk, switch to music, significant change in maximumor average power level, significant change in power distribution amongthe monitored frequency bands, etc.

Multiple execution threads that may be running in parallel may accessdata structure 4500. One thread may be writing multiple fields in datastructure 4500, while another thread may be reading multiple fields indata structure 4500. If this is unrestricted, it may lead to the threadthat is reading the data seeing inconsistent data (i.e., reading somefields before they have been changed and reading other fields after theyhave been changed.) To prevent this, it may be necessary for one threadto temporarily disable the other while it is accessing multiple relateditems of data.

FIG. 46 shows data structure 4600 that may be associated with thecurrent playback. These fields may be stored separately or as part ofone or more data structures. Some fields may be omitted if desired, andadditional fields may be added.

Field 4605 is a flag indicating if playback is enabled. This flag isnormally set if the user is listening to the radio. This flag may becleared if the user has paused the radio or turned the radio off, or ifthe user is listening to an alternate source such as a CD player.

Field 4610 may indicate the playback source. For example, this field maybe a pointer to an instance of data structure 4500 (FIG. 45).Alternatively, it may be a tuner number or an index into an array ofdata structures.

Field 4615 is the current playback direction. For example, this may be aflag that indicates whether the content is being played in the forwardor reverse direction. Field 4620 is the current playback speed. This maybe, for example, a percentage of real time at which the selected contentis being played in the indicated direction. A number less than one mayindicate that the content is being played at slower than real time,while a number greater than one may indicate that the content is beingplayed faster than real time. Alternatively, this field may include anumber that corresponds to the number of blocks or chunks of audio datato be played in a predefined period of time, such as every second.

Field 4625 may indicate the current playback volume. If desired, aseparate volume value may be stored for each channel of a multi-channel(e.g., stereo) audio signal.

Field 4630 may contain a position in the currently playing content whichthe user has marked. If desired, multiple positions may be remembered.

Multiple execution threads that may be running in parallel may accessdata structure 4600. One thread may be writing multiple fields in datastructure 4600, while another thread may be reading multiple fields indata structure 4600. If this is unrestricted, it may lead to the threadthat is reading the data seeing inconsistent data (i.e., reading somefields before they have been changed and reading other fields after theyhave been changed.) To prevent this, it may be necessary for one threadto temporarily disable the other while it is accessing multiple relateditems of data.

FIG. 47 shows audio input thread 4705. This thread may be executed inparallel by DSP 4310 (FIG. 43) for each input station that is currentlybeing monitored. This thread may be launched, for example, when ERS 4300(FIG. 43) configures each station to be monitored, either when it firststarts execution or when the user selects an additional station (e.g.,an additional favorite station). This is shown, for example, as steps4420, 4445, and 4470 of the flowchart shown in FIG. 44. This thread maybe implemented as a prioritized task, as a hardware interrupt (e.g.,triggered by DMA 4315 of FIG. 43), as a software interrupt, as a routinelaunched by a timer interrupt, or as any other suitable type of thread.All steps in this flowchart are each optional and may be performed inany suitable order. If desired, the steps in this thread related toreceiving audio data may be implemented in a separate thread from thesteps related to receiving the related data.

Audio input thread 4705 may be implemented as a higher priority threadthat may run in parallel (and possibly interrupt the execution of) otherlower priority threads (such as main enhanced radio thread 4405). Whilea process in one of the other threads is accessing multiple fields ofdata that may also be accessed by audio input thread 4705, it may bedesirable to temporarily disable audio input thread 4705, to ensure thatdata fields are consistent.

In check 4710, the thread checks for sufficient audio data to process.For example, the thread may wait for a fixed-sized memory block to befilled with uncompressed data from the tuner before processing it. Ifdesired, this may include a check for adequate signal quality, and theincoming audio data may not be processed if the radio signal does notmeet a predetermined acceptability standard. If desired, the thread maycheck for room in a data block for additional compressed audio data instep 4715 and allocate an additional data block if necessary in step4720. In step 4725, the thread may process the uncompressed data using acompression algorithm. This may include any suitable algorithm, such asMotion Picture Experts Group Layer 3 (MP3) or Advanced Audio Coding(AAC).

In step 4730, compressed data may be generated by the compressionalgorithm. The compression algorithm may not generate data every time itis called with uncompressed data. It may also generate multiple chunksof compressed data some times that it is called. As each chunk ofcompressed data is generated, it may be linked into the existing data.The data structure that references the data from this source, such asdata structure 4500 (FIG. 45), may be updated. The new chunk of data maybe linked back to the chunk that was previously the last chunk, and thenew chunk may be indicated as the new last chunk.

In step 4735 signature data may be generated for the newly compressedblock of audio data, and may be stored in a data structure (such as acircular buffer) associated with the monitored station. The signaturedata may consist of a single signature word (e.g., 16 bits) and a singlemask word (e.g., which may be the same size as the signature word). Onesignature/mask word pair may be generated for each block (e.g., frame)of audio data that is compressed. For example, the signature generationalgorithm may have a set of 16 predefined frequency bands. The algorithmmay determine the power level in each of these bands. The algorithm maycompare the current power level in each of these bands with the powerlevel in the same 16 bands from a predetermined number of frames prior.If the power level has increased or stayed the same, the correspondingbit in the signature word may be set to one; otherwise, thecorresponding signature bit may be set to zero. If the differencebetween the two power levels is below a threshold, the corresponding bitin the mask word may be set to one, and otherwise the mask bit may beset to zero.

In some embodiments, the signature data may be generated takingadvantage of characteristics of the compressed audio data. For example,if the audio data is compressed using the MP3 (Motion Picture ExpertsGroup Layer 3) algorithm, the compressed data may include scale factorsfor each of up to 32 frequency subbands. These scale factor values maybe used directly, or a signature value may be derived from them. As onesuitable method, a 64-bit signature word may be generated, in which twobits correspond to each of the 32 frequency subbands. Each 2-bit fieldmay be set to zero if the frequency band is not used, one if the scalefactor for that frequency band is increasing significantly over thecourse of the audio frame, two if the scale factor is decreasingsignificantly over the course of the audio frame, and three if the scalefactor is not increasing or decreasing significantly. Any other suitablemethod of generating signature data may be used. For example, the 64-bitsignature word described here may be converted into a 16-bit signatureword and a 16-bit mask word.

In some embodiments, the signature data may be generated usingintermediate data that is generated during the audio compressionalgorithm. For example, if MP3 compression is used, frequency subbandscale factors may be generated in multiple passes. During eachcompression pass, information may be removed from the audio that isimperceptible to the human ear and the scale factors may be regenerated.By using the scale factors from the first pass to generate the signaturedata, the signature data will be less sensitive to the effectiveness ofdifferent compression algorithms.

In step 4740, the thread may check for signature matches using the newlygenerated signature data. The process may loop through all availablesignatures for items of content that the user has marked as either likedor disliked. The process may then compare the item signature with thestation signature ending with the most recently written signature word.

In step 4745 cue data may be generated for the newly compressed block ofaudio data, and may be stored in a data structure (such as a linked listor circular buffer) associated with the monitored station. The cue datamay consist of a single word (e.g., 16 bits) in which each bitcorresponds to a certain condition in the audio or to a certain type ofchange in the audio data. For example, one bit may correspond tosilence, and may be set if the current audio power level is below apredefined threshold. Another bit may correspond to talk, and may be setif the frequency characteristics of the audio are those typical of humanspeech. Another bit may correspond to music, and may be set if thefrequency characteristics of the audio are those typical of music.Another bit may correspond to a significant change in average powerlevel in the audio, which may be compared over several blocks of audiodata. Another bit may correspond to a significant change in thefrequency components of the audio data. Another bit (or two bits) maycorrespond to the start or end of a recognized item of content. Thesecues are illustrative. Any suitable set of cues may be determined.

If desired, cues may be generated based on length of audio content. Forexample, a change in frequency characteristics may be marked as a cue ifthe time distance before (or after) another cue is the same as theprobable length of an item of interest (such as 30 or 60 seconds for acommercial, or three to five minutes for a song.) If desired, thegeneration of the cues may be different for different stations. Forexample, on a country station, the algorithm may use an average songlength of 2.5-4 minutes, while on a rock station the average may be 3-5minutes. As another example, on a news and talk station, the presence ofa short period of music may be considered a cue.

If desired, some cues may be generated taking advantage of thecharacteristics of the audio compression algorithm. For example, thecontent of the MP3 frequency subbands may be used to determine thedifference between talk and music, or to detect a significant change infrequency content. If desired, intermediate values generated duringaudio compression may be used to determine some cues—for example thealgorithm may use the content of the frequency subbands before datacorresponding to imperceptible audio has been removed. If desired, somecues may be generated directly from the signature data, for example bycounting the number of signature bits that change from one audio frameto the next.

In check 4750, the thread may check to see if there is related dataavailable for this station. For example, signal-processing unit 4304(FIG. 43) associated with this station may be polled to see if new datais available. The related data may be, for example, Radio Data Service(RDS) or Radio Broadcast Data System (RBDS) data. This data may include,for example, program type (e.g., rock, jazz, news, etc.), call sign,emergency alerts, station database information (e.g., information aboutthis and other stations available in this area), song information suchas artist and song title, supplemental information about advertisements(e.g., phone numbers, store hours, location, etc.), current time,traffic information, etc. Some of the data may not be related to theaudio, such as the current time (which may be used to update a clock inthe ERS). However, most of the data is likely to be related to thereceived audio content.

In step 4755, the related data is read, and in step 4760 it is stored.The thread may perform a transformation or other function on the dataprior to storing it, and it may not store all of the related data. Instep 4765, the current time may be stored with the related data. Thetime may be maintained by the ERS, or it may be transmitted with therelated data. In step 4770, a link may be stored between the compressedaudio data and the related data. In that manner, the appropriate relateddata may be retrieved as the audio data is being played back at a latertime.

After storing any audio data and/or related data, the thread may waitfor additional data to be available.

FIG. 48 shows audio output thread 4805. This thread may be executed inparallel by DSP 4310 (FIG. 43) to control the playback of the selectedaudio source. This thread may be launched, for example, when ERS 4300(FIG. 43) first starts execution. This is shown, for example, as step4480 of the flowchart shown in FIG. 44. This thread may be implementedas a prioritized task, as a hardware interrupt (e.g., triggered by codec4320 or by a DMA (not shown) that interfaces with codec 4320 of FIG.43), as a software interrupt, as a routine launched by a timerinterrupt, or as any other suitable type of thread. All steps in thisflowchart are each optional and may be performed in any suitable order.

Audio output thread 4805 may be implemented as a higher priority threadthat may run in parallel (and possibly interrupt the execution of) otherlower priority threads (such as main enhanced radio thread 4405). Whilea process in one of the other threads is accessing multiple fields ofdata that may also be accessed by audio output thread 4805, it may bedesirable to temporarily disable audio output thread 4805, to ensurethat data fields are consistent.

In check 4810, the thread tests to see if playback is enabled. If not,it waits for playback to become enabled. If playback is enabled, itdetermines the selected station and checks, in step 4815, to see ifthere is sufficient data in the selected direction to output.

If there is sufficient data, the compressed data is read in step 4820,and processed by a decompression routine in step 4825. The decompressionalgorithm may be determined by a format flag stored for the selectedstation.

Depending on the decompression algorithm and the direction and speed ofplayback, the thread might need to send multiple blocks of compresseddata to the decompression algorithm. For example, a compressionalgorithm such as MP3 with variable bit-rate compression may incorporateinformation from prior audio blocks into the compression results of agiven audio block. When playing that audio data back in reverse, it maybe necessary to use multiple blocks to decompress a single blockcorrectly.

Playing back at different speeds may be accomplished by any suitabletechnique. For example, the audio output thread may loop more or lessoften depending on the desired playback speed. For example, audiosamples may be skipped when playing back at high speed. Audio samplesmay be played multiple times when playing back at low speed. If desired,audio sample values may be interpolated based on other sample data.

When processing a block of compressed data, the decompression algorithmmay generate one block of decompressed audio, no blocks of decompressedaudio, or multiple blocks of decompressed audio. As each block ofdecompressed audio is generated, it is output in step 4830. This mayinvolve using a DMA device (which may be incorporated into DSP 4310 ofFIG. 43) to transfer the data from memory 4314 to codec 4320, both ofFIG. 43.

In step 4835, the playback pointer may be updated. This may includeplayback position 4545 (FIG. 45).

In step 4840 the thread may wait until additional output is needed. Thismay be triggered in any suitable manner. For example, an interrupt maybe generated by a timer, by a DMA, by a codec, or in any other suitablemanner, or any of these devices may be polled to determine their states.

In check 4815, if a determination was made that there was not enoughdata to play back, it may be handled in step 4845. If the playbackdirection was reverse, the thread may automatically change the playbackdirection to forward, or it may automatically pause the playback (e.g.,clear the playback enabled flag). If the playback direction was forwardand the content was previously recorded, the thread may clear theplayback enabled flag, or may automatically change the playback toanother source (e.g., the most recent channel). If the playbackdirection was forward and the content is currently being received from atuner (or other source, such as a communications device), the thread maysimply delay until additional data has been received.

FIG. 49 shows a flowchart of steps that may be executed in theprocessing of an event by the ERS, for example as shown in step 4490 ofFIG. 44. All steps in this flowchart are each optional and may beperformed in any suitable order. The steps may be executed as part ofmultiple functions, for example with one function to process usercommands and another function to process other types of events.

In step 4902, the function is entered. It may be entered, for example,based on a device interrupt, or based on one or more devices beingpolled for input status. In check 4904, the function checks for a usercommand. The user command may have originated from any suitable inputdevice. This may include a microphone and audio codec, such asmicrophone 4330 and audio codec 4320 of FIG. 43, which may be used togenerate voice commands. It may also include any other suitable type ofuser controls, such as user controls 4332 of FIG. 43, for example, pushbuttons and knobs. Depending on the type of user command, the functionexecutes additional functionality based on the command. Further detailsof the processing of each type of command are shown in further figures.

If the user has entered a command to change the volume, for example toincrease or decrease the volume, the function adjusts the volume in step4910. Not shown, the ERS may receive and act on other types of audiooutput commands, such as adjusting the balance, adjusting the relativelevel of frequency bands within the audio (such as bass or treble), orany other suitable types of audio output adjustment commands.

If the user enters a command to change the station, the ERS may changeto a station already tuned by one of the tuners in step 4912, or changeto a new station (i.e., a station that none of the tuners in the ERS iscurrently tuned to) in step 4914. In step 4916, the ERS may respond to acommand to change one or more user configuration settings.

The ERS may pause the current playback, resume playback that has beenpaused, adjust the playback speed and/or direction, jump to a specificplayback position, or jump to the start of content, in response tocorresponding user commands, as shown in steps 4918, 4920, 4922, 4924,and 4926, respectively. In step 4928, the ERS may mark a position in thecontent to allow it to be easily referenced in other functions.

In step 4930, the ERS may allow the user to save content. In step 4932,the ERS may allow the user to save a signature for an item of content.In step 4934, the ERS may allow the user to play back saved content. Instep 4936, the ERS may allow the user to upload saved content to anotherdevice, such as a computer. In step 4938, the ERS may allow the user todownload content from another device, such as a computer.

In step 4940, the ERS may allow the user to initiate a scan of availableradio stations, or resume a scan that was paused. In step 4942, the ERSmay allow the user to pause or stop a scan that is in progress ofavailable radio stations. In step 4944, the ERS may allow the user toinitiate a search for a particular item of content or type of content.In step 4946, the ERS may allow the user to turn the ERS on or off.

Any other suitable user command may be processed. For example, the ERSmay support a command to allow the user to switch between radio outputand output from another audio source, such as a CD player. As anotherexample, the ERS may allow the user to initiate a search for desirableradio stations and automatically set the favorites.

If the event to be processed is not a user command, the type of commandmay be determined in check 4950. If the event was a scan timer firing,the event may be handled in step 4952. If the event was a searchmatching, the event may be handled in step 4954. If the event to beprocessed was a synchronize command from another device, received over acommunications device, the event may be handled in step 4956.

Any other suitable types of user commands and other events may beprocessed if desired. After the event has been processed, controlreturns to the main enhanced radio thread, in step 4960.

FIG. 50 shows a block diagram of a data structure 5000 that may be usedto maintain audio data. An instance of this data structure 5000 may bemaintained for every input station being monitored, as well as for anyitem of audio content that is being stored. The compressed audio data isstored in one or more compressed data blocks 5010. Each compressed datablock 5010 may contain a pointer 5012 to a previous data block and apointer 5014 to a subsequent data block. These pointers may be used forease of accessing the data for playback, as well as other functions, ineither direction. The number of compressed data blocks varies dependingon the length of the audio segment to be remembered. The size of thedata block may be optimized based on the compression algorithm selectedor on other factors.

The ERS maintains three pointers into this data structure 5000. Thesepointers may be part of another data structure, such as data structure4500 of FIG. 45. These pointers may be to the start of a data block5010, or to a point within a data block 5010. Pointer 5020 may point tothe first block of data for this audio stream or content item. It may beimplemented as pointer 4530 of FIG. 45. Pointer 5040 may point to themost recent data for this audio stream or content item. In the case of acurrently monitored radio station, this may point to the most recentlywritten audio block or position within that block. It may be implementedas pointer 4535 of FIG. 45. Pointer 5030 may point to the currentplayback position for this audio stream or content item. This may be theblock or position in the block that has most recently been output orwill next be output. It may be implemented as pointer 4545 of FIG. 45.

The ERS may retain the time 5025 at which the earliest data block waswritten. This may be implemented as field 4540 of FIG. 45. The ERS mayretain the time 5035 at which the content was most recently played. Thismay be implemented as field 4550 of FIG. 45.

FIG. 51 shows a flowchart of function 5105 for allocating a block ofmemory for audio content. This may be content that is being recordedfrom a tuner, content that is saved from a monitored tuner, or contentthat is downloaded from another device. All steps in this flowchart areeach optional and may be performed in any suitable order. In check 5110,free memory is checked to see if there is adequate memory that has notbeen allocated for any other content. If there is memory available, therequested block of memory is allocated from the free memory pool in step5115, and returned in step 5120.

If there is not enough free memory, the function loops 5125 through eachstation currently being recorded. The function calculates a priorityvalue for each station in step 5130, specifically the priority of theoldest block of memory being used to store audio data for that station.The priority value may be calculated based on a user-assigned priorityin sub-step 5131. The priority may be adjusted to a higher value if thestation is the station that is currently being played back in sub-step5132. In sub-step 5133, the priority may be adjusted based on the timethat the station was most recently listened to, with a more recentstation being given a higher priority and stations that have not beenlistened to for a longer time receiving a lower priority. In sub-step5134, the priority may be increased if the current playback position forthe station is in the oldest data block for that station. This decreasesthe likelihood that the content most recently listened will be lost whenthe user resumes playback of the station. In sub-step 5135, the prioritymay be decreased if the amount of audio recorded on the station exceedsthe minimum for that station (which may have been user specified).Alternatively, the priority may be increased if the amount recorded forthe station is less than the minimum. Any other suitable factors may beconsidered in assigning a priority to the memory block. The functioncontinues looping through the remainder of the monitored stations instep 5140.

In step 5150, the function deallocates the oldest memory block from thelowest priority station. It may be required to deallocate more than onememory block to make sufficient memory available. In this case, multipleblocks may be deallocated from the same station, or the function may gothrough the station priority loop again to find the lowest prioritystation from which to take another memory block. When the memory blockis deallocated, the pointers for the audio data for that station areadjusted to reflect that the oldest block is changed. In sub-step 5155,the playback pointer may also be updated if it was in the memory blockthat was deallocated. It may be adjusted to point to the start of theblock that became the oldest block for the station. Any signature andcue data associated with the deallocated block may also be deallocated.The deallocated block is returned in step 5120.

If storage for monitored stations, saved content, and downloaded contentis allocated from the same memory pool, the amount of storage availablefor each monitored station may vary. If more songs are saved ordownloaded, for example, the amount of storage (number of minutes ofrecorded audio) for each monitored station will be reduced. Also, as thenumber of monitored stations increases (e.g., as the user defines morefavorite stations), the amount of storage for each is reduced. The usermay be able to influence this by setting a priority for each station, ora minimum number of minutes to save. If desired, storage for saved anddownloaded content may be allocated from a different section of memoryor a different memory device than the storage for monitored radiostations. If desired, storage of audio data may be temporarily disabledwhile the quality of the signal from the input station being monitoredis below a predetermined threshold. This may have the effect ofincreasing the storage for each of the stations that does meet thesignal quality standard. This may also have the effect of allowing theretention of older content on the stations that are not currently withinthe reception area of the ERS.

FIG. 52A shows a flowchart of process 5205 for allowing a user toconfigure various parameters associated with the ERS. All steps in thisflowchart are each optional and may be performed in any suitable order.In particular, different parameters may be configured separately atdifferent times, and in response to different user commands.

Preferably, configuration parameters will be stored in nonvolatilememory or in memory that is powered by a battery so that the parametersare retained if power is lost. For an ERS powered using standardhousehold alternating current, a separate battery may be provided toback up this memory. For an ERS in an automobile, the system may bepowered by the automobile battery, and may not require a separatebattery. For portable battery-powered systems, the memory may be poweredby the main battery, or there may be a separate battery to retain theconfiguration parameters when main battery power is lost. Alternatively,configuration parameters may be stored in nonvolatile memory, such asflash memory.

In step 5210, the user may be allowed to determine whether the ERSautomatically pauses when changing stations. When this parameter is set,each station may be paused when the user changes stations. Then when theuser returns to the station at a later time, it automatically resumesfrom the point at which the user left it. If this parameter is not set,when the user changes stations the old station is not paused and the newstation is played from the current broadcast point, i.e., the user hearsthe new station content live.

In loop 5215, the user may be allowed to set up favorite stations forthe ERS. Alternatively, the user may be allowed to set up each favoritestation individually and at separate times. In step 5220, the user maybe allowed to select the band (e.g., AM or FM) and the frequency. Forexample, the user may press a button to change between AM and FM, andmay turn a knob or press a tuning button to adjust the frequency. Instep 5225, the user may be allowed to select a favorite channel number.For example, the user may press a numeric key and hold the key for aperiod of time to indicate that a new favorite channel is to be set andassigned to that key. In step 5230, the user may be allowed to set astation priority. For example, the user may press a high-priority orlow-priority key when setting favorite stations. Alternatively, thepriority may be based on the assigned favorite channel number (e.g.,favorite channel number one has a higher priority than favorite channelnumber two). As another example, the ERS may display a choice ofpriority on a display and the user may make a selection using “softkeys” (e.g., keys in which the function may change depending on contextand for which labels are displayed on a display device.) In step 5235,the user may be allowed to select a minimum amount of time to retaincontent which was broadcast on the station. For example, the ERS maydisplay time choices on the display, and the user may make a choiceusing a soft key or adjust the numbers using an input key or knob. Instep 5240, the ERS may initialize the data structures associated withthe newly configured favorite station, such as data structure 4500 ofFIG. 45. While configuring the data structures, it may be necessary totemporarily disable one or more other execution threads that may berunning in parallel and accessing the same data structures, such asaudio input thread 4705 of FIG. 47 or audio output thread 4805 of FIG.48. If desired, the ERS may use the same data structure that was alreadyset up for the current station and merely update it with the favoritestation information. In step 5245, the ERS may allow the user toconfigure additional favorite stations. The user may be allowed to haveany number of favorite radio stations, up to a maximum determined by thenumber of tuners in the ERS.

Any additional configuration parameters may be set. In step 5250, thisprocess may return.

FIG. 52B shows a flowchart of process 5260 for allowing a user or usersto access multiple sets of configuration parameters associated with theERS. If desired, the ERS may allow as many sets of configurationparameters as practical. This may be done in response to a “save” or“restore” command. Each saved set of parameters may be given anidentifying name or number. A listener may wish to save the definitionsof favorite stations when entering an unfamiliar location, for example,when the ERS is installed in an automobile, so that favorites may laterbe restored when returning to the original location. As another example,multiple listeners may use the same ERS, and they may each have a uniqueset of configuration parameters. Sets of parameters need not beassociated with different users; even a single user may have differentpreferences at different times. All steps in this flowchart are eachoptional and may be performed in any suitable order. In particular,different parameters may be configured separately at different times,and in response to different user commands.

In step 5270, a user may be allowed to save configuration information.If the system supports saving multiple sets, the user may be allowed toprovide a unique name (for example, by speaking the name) or number (forexample, by pressing a numeric key) to identify the current set. Insub-step 5271, the ERS may save the definition of all current favoritestations. In sub-step 5272, the ERS may save any current preferences,such as songs, genres, likes, dislikes, etc. In sub-step 5273, the ERSmay save any currently defined searches, such as searches for desiredcontent and searches for content to skip. If desired, the user mayinstruct the ERS which configuration parameters to save. Alternatively,the ERS may have a predefined set of configuration parameters to save.

In step 5280, a user may be allowed to restore configuration informationthat was previously saved. If the system supports saving multiple sets,the user may be allowed to provide the unique name (for example, byspeaking the name) or number (for example, by pressing a numeric key) toidentify the set to be restored. In sub-step 5281, the ERS may restorethe definition of the favorite stations. In sub-step 5272, the ERS mayrestore any listening preferences. In sub-step 5273, the ERS may restoreany searches. The process completes in step 5290.

FIG. 53 shows a flowchart of a process for changing to a station that iscurrently being monitored. The steps in this flowchart are each optionaland may be performed in any suitable order. The ERS may change to afavorite station in sub-process 5305 or to the previous station insub-process 5350. The user may be allowed to select a favorite stationin step 5310, for example by pressing a numeric key. The user may beallowed to select the previous station in step 5355, for example bypressing a “previous” key. The user may also be allowed to enter adesired band and frequency, and the ERS may automatically recognize thatthe selected station is being monitored as a favorite station or aprevious station. In any of these cases, the ERS determines whichexisting tuner is assigned to the selected station and references thedata associated with the selected station, such as data structure 4500of FIG. 45.

If the user selects a station that is currently monitored, no tuningneeds to take place. The ERS merely switches the output to come from theselected tuner. In step 5315, the current station flag is set in thedata associated with the selected station. In step 5320, the currentstation flag is cleared and the previous station flag is set in the oldcurrent station. The previous station flag may also be cleared in theold previous station. In step 5325, a playback pointer may be updated toreference the data associated with the selected station, for exampleplayback source 4610 of FIG. 46. In step 5330, the playback position(e.g., field 4545 of data structure 4500 of FIG. 45) may optionally beset to the most recently recorded position. Whether the playbackposition is set to the current “live” position may be a userconfiguration option. If not set to the live position, playback maycontinue from the position at which the user most recently listened. Instep 5335, the playback direction (e.g., field 4615 of FIG. 46) may beset to forward and the playback speed (e.g., field 4620 of FIG. 46) maybe set to normal speed. If desired, a playback-enabled flag (e.g., field4605 of FIG. 46) may also be set. The station change process maycomplete at step 5340.

While this process is updating the data structures associated with thecurrent and previous stations, it may be necessary to temporarilydisable one or more other execution threads that may be running inparallel and accessing the same data structures, such as audio outputthread 4805 of FIG. 48.

FIG. 54 shows a flowchart of process 5405 for changing to a station thatis not currently being monitored, i.e., no tuner is tuned to theuser-selected station. The steps in this flowchart are each optional andmay be performed in any suitable order. This process may be executedwhen the user requests a tune to a new station, e.g., by pressing a tunekey, by turning a tuning knob, by speaking a tune command, or any othersuitable method.

In check 5410, the ERS may determine whether the currently tuned stationis a favorite station. If so, its tuner cannot be reused, and anothertuner must be allocated. In check 5415, if the current station is not afavorite station the ERS may determine how long the current station hasbeen tuned. If the current station has been tuned for a significant,predetermined period of time, its tuner may be retained to allow theuser to return to it as the previous station. If the current station hasnot been tuned for a significant period of time, its tuner may be reusedfor the new tune request.

In step 5420, if the current station is not a favorite and has not beentuned for a significant period of time, its tuner may be reused. In thiscase, the tuner associated with the current station is determined andadjusted to the band and frequency of the newly selected station. Thedata associated with the current station may then be updated to reflectthe new station. For example, the audio data (as well as related data,signature data, and cue data) associated with the old band and frequencymay be discarded. The pointers to the start and end of data (e.g.,fields 4530 and 4535 of FIG. 45) may be cleared, and the time of firstblock and the playback position (e.g., fields 4540 and 4545 of FIG. 45)may be set to the current time. The new band and frequency may bestored, for example in field 4525 of FIG. 45. Any other data fields maybe adjusted as desired. This process may then end at step 5470.

If the currently tuned station is a favorite or has been tuned for asignificant period of time, then its tuner cannot be reused. In thiscase, the current station flag may be cleared and the previous stationflag may be set for the old current station in step 5425. In check 5430,the ERS determines whether the old previous station was a favorite. Ifso, its tuner cannot be reused and a new tuner must be allocated. Ifnot, its tuner may be reallocated.

If the tuner associated with the old previous station is to be reused,the process proceeds to step 5435. In this case, the tuner associatedwith the old previous station is determined and adjusted to the band andfrequency of the newly selected station. The data associated with theold previous station may then be updated to reflect the new station. Forexample, the audio data (as well as related data, signature data, andcue data) associated with the old band and frequency may be discarded.The pointers to the start and end of data (e.g., fields 4530 and 4535 ofFIG. 45) may be cleared, and the time of first block and the playbackposition (e.g., fields 4540 and 4545 of FIG. 45) may be set to thecurrent time. The new band and frequency may be stored, for example infield 4525 of FIG. 45. In step 5440, the previous station flag may becleared and the current station flag may be set.

If the tuner associated with the old previous station is not to bereused, the process proceeds from check 5430 to step 5450, in which theprevious station flag is cleared for the old previous station. A newdata structure, such as data structure 4500 of FIG. 45, may be createdand initialized in step 5455. For example, current station flag 4510 maybe set. Tuner number 4520 may be set to the next available tuner. Tunersetup information 4525 may be set to the selected band and frequency.Any other fields may be set as desired. In step 5460, the newlyallocated tuner may be set to the selected band and frequency. In step5465, a new audio input thread may be launched for the new station.

After the station has been tuned and its data updated, either in step5440 or in step 5465, the ERS may set up the playback structure toreference the data structure of the selected station. This may be, forexample, field 4610 of FIG. 46. This process may then complete at step5470.

While this process is updating the data structures associated with thecurrent and previous stations, it may be necessary to temporarilydisable one or more other execution threads that may be running inparallel and accessing the same data structures, such as audio inputthread 4705 of FIG. 47 or audio output thread 4805 of FIG. 48.

FIG. 55 shows a flowchart for a process 5505 to allow a user to adjustvarious playback parameters. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added. This process may be implemented, forexample, as several independent functions to make different types ofadjustments.

This process may be initiated, for example, when the user presses anassociated key or speaks an appropriate command. In check 5510, theinput command is tested to see what adjustment has been requested. Insome cases, this process may be initiated based on conditions other thanuser commands. For example, the playback state may be changedautomatically when the playback reaches the end of the available data.As another example, the playback state may be changed automatically whencertain communication events occur.

Many changes to the playback state may be made with the change of asingle flag or variable that is used by audio output thread 4805 todetermine the audio playback mode. In this case, it may not be necessaryto disable audio output thread 4805 while the change is being made.

The system may support pausing the audio, in step 5515. For example, theuser may have pressed a pause key or spoken a pause command. The audiooutput may be automatically paused when an incoming communication isreceived or an outgoing communication is initiated (e.g., using atelephone). The audio output may also be paused if the user selects analternate audio source (such as a CD player). When a pause command isinitiated, the playback-enabled flag may be cleared, indicating to audiooutput thread 4805 that no audio is to be processed and output.

The system may support playing the audio. For example, the user maypress a key or speak a command to play or resume. The system mayautomatically resume playing when the earliest available audio data isplayed back in the reverse direction. The system may automaticallyresume playing when the system is turned on, at the conclusion of acommunication (e.g., telephone) session, or when an alternate audiosource is deselected. The system may automatically select normal playmode when the user jumps to new content on the same or a differentstation. When a play command is initiated, the process may set theplayback-enabled flag in step 5520, set the playback direction toforward in step 5525, and set the playback speed to normal in step 5530.It may be necessary to temporarily disable audio output thread 4805while making these changes so that it does not process inconsistentresults.

The system may support variable playback speeds. For example, the usermay press a key or speak a command to play back the audio at eitherfaster than normal speed or slower than normal speed. This may includemultiple speed choices for either or both fast and slow. The system maysupport, for example, four different fast forward speeds, normal playspeeds, two slow play speeds, and the same number of speeds in thereverse direction. In step 5535, the playback speed variable may beincreased from its current value. In step 5540, the playback speedvariable may be decreased from its current value.

The system may support playback in both directions, forward and reverse.This may be in response to a user command such as fast-forward, rewind,slow play, slow reverse, etc. In step 5545, the playback may be changedto the forward direction. In step 5550, the playback may be changed tothe reverse direction.

In step 5555, this process may exit when all requested changes have beenmade.

FIG. 56 shows a flowchart of a process 5605 to allow the user to jump todifferent audio content. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added. This process may be implemented, forexample, as several independent functions to make different types ofjumps. Each of the types of jumps may be initiated, for example, by auser command, which may be the pressing of a key, the speaking of acommand, or any other suitable type of input.

In step 5610, the listener is allowed to jump back a predeterminednumber of seconds in the current audio content. For example, the usermay be allowed to jump back 15 seconds. If desired, the number ofseconds may be user configurable. If desired, the number of seconds mayvary from station to station, e.g., as a user configuration parameter.When this command is received, a playback position pointer may beupdated by the specified amount. The amount of data to be skipped overmay need to be calculated based on the compression ratio (number ofbytes per second of content). In some cases, each of the interveningblocks of data may need to be read to determine the number of blocks toskip over. If the jump would be past the earliest available content forthe current playback source, the process may jump to the earliestcontent. The process may automatically initiate normal-speed forwardplayback after the jump is complete.

In step 5615, the listener is allowed to jump forward a predeterminednumber of seconds in the current audio content. For example, the usermay be allowed to jump forward 30 seconds. If desired, the number ofseconds may be user configurable. If desired, the number of seconds mayvary from station to station, e.g., as a user configuration parameter.When this command is received, a playback position pointer may beupdated by the specified amount. The amount of data to be skipped overmay need to be calculated based on the compression ratio (number ofbytes per second of content). In some cases, each of the interveningblocks of data may need to be read to determine the number of blocks toskip over. If the jump would be past the latest available content forthe current playback source, the process may jump to the currentlybroadcasting (“live”) content. For previously saved content, if the jumpwould be past the end of the recorded content, the process may endplayback of the content, and may automatically initiate normal playbackof another source. The process may automatically initiate normal-speedforward playback after the jump is complete.

In step 5620, the listener is allowed to jump to a previously markedposition. For example, the user may have previously marked a playbackposition for this content. When this command is received, a playbackposition pointer may be updated to the specified position. If noplayback position has been marked, this command may be inactive. If thecontent including the marked playback position is no longer available(i.e., the memory that held that content has been reused for latercontent), the process may ignore the command, may notify the listener,or may jump to the beginning of the available content. If desired, theprocess may automatically initiate normal-speed forward playback afterthe jump is complete.

In step 5625, the listener may be allowed to jump to the start ofavailable content on the current station or to the start of a previouslyrecorded content item. The listener may also be allowed to jump to theend (currently broadcast, or “live” position) of the current station orto the end of a previously recorded content item. When jumping to thestart of the content, whether associated with a currently monitoredstation or a previously saved content item, the enhanced radio may setthe playback position to the start of the first audio data buffer forthe content being played. The ERS may also automatically set theplayback mode to normal speed in the forward direction, and may enableplayback if it is disabled. When jumping to the live position, the ERSmay set the playback pointer to the most recently written audio data forthe current station. The ERS may also automatically set the playbackmode to normal speed in the forward direction, and may enable playbackif it is disabled. When jumping to the end of previously saved content,the ERS may disable playback or it may automatically start playingcontent from another source.

The ERS may allow the listener to jump to the start of an item ofcontent in step 5630 or to the end of an item of content in step 5635.For example, the user may initiate a command to jump back to the startof a song, news story or traffic report, for example after changingstations in the middle of the content. As another example, the user mayinitiate a command to jump over the current song or commercial. As yetanother example, the ERS may automatically jump to the start of an itemof content when user-desired content has been found on another station.In order to complete the requested jump, the ERS may set a playbackposition pointer to the indicated content start or end position. Afterjumping to the start or end of an item of content, the ERS may alsoautomatically set the playback mode to normal speed in the forwarddirection, and may enable playback if it is disabled.

In step 5640, the listener may be allowed to jump to a specific type ofcontent, or to a specific item of content. For example, the ERS mayallow the user to initiate a command to jump immediately to any trafficreport that may be in progress or which may have broadcast recently onany station that is monitored. In order to complete the requested jump,the ERS may change the selected station for playback and set a playbackposition pointer to the start position of the indicated content. Afterjumping to a specific item or type of content, the ERS may alsoautomatically set the playback mode to normal speed in the forwarddirection, and may enable playback if it is disabled. If the requestedcontent is not found, the user command may be ignored, or the user maybe notified (e.g., using the display or the speakers).

In order to jump to the start or end of an item of content, or to jumpto a specific type of content, the ERS has to find the start and end ofthe content and/or the type of content. The ERS may use differenttechniques to find the desired content type and/or location, in step5650. In one example, the system may use related data that may bebroadcast with the radio signal or may have previously been stored whenthe signal was broadcast, in sub-step 5651. For example, the system maystore RDS or RBDS information that is received with the audio signal.The RDS or RBDS data may change at certain content boundaries. Certaintypes of content, such as traffic reports, may be tagged as well. If thelistener requests a jump to a traffic report, the ERS may search allstored related data for traffic report tags. The system may then jump tothe start of the most recently broadcast traffic report (assuming thatthe most recent traffic report is of the most interest). An additionalrequest to jump to a traffic report may then jump to the start of thenext most recent traffic report, or to a new traffic report if one hasbeen broadcast since the most recent jump.

In sub-step 5652, the system may use signature matching to identify aspecific item of content, and the start and end of the item of content.This technique may be used, for example, if the user requests the ERS tojump to a specific song, or to jump to any of several favorite songs.Signatures may have been generated for certain desired content items.The signature may be generated based on characteristics of the audiosignal at various positions within the content. The signature may alsoinclude information on the position of the start of the content item andthe end of the content item relative to the various signature components(e.g., signature words). When the ERS is requested to jump to a specificitem of content, it may compare the signature for the requested itemwith signature data associated with all recorded audio from all sources,including both live radio stations and previously recorded contentitems. If a signature matches any recorded content (e.g., similaritybetween the signature for the requested item and the signature data forthe recorded content exceeds a predetermined threshold), the ERS maydetermine the station and may also determine the position in therecorded audio data for that station at which the matching content itembegins. If the system is requested to jump to any favorite song, it maycompare the signatures for all favorite songs with signature data forall recorded content, and similarly jump to any matching station andposition. If there are multiple matches, the system may jump to thefirst match (e.g., the oldest recorded content, which is most likely tobe overwritten soonest). A subsequent request to jump to any favoritesong may jump to the next match.

In sub-step 5653, the ERS may use schedule information to identifyspecific content items and their start and end times. The schedule maybe downloaded, for example, over a communications device, such ascommunications device 4340 of FIG. 43. The schedule may indicatespecific items, or it may indicate types of content. The schedule may beto any suitable level of granularity. For example, it may identify startand end times of specific individual songs, shows, or news items. Whenjumping to an item based on a schedule, the ERS may use the start timeinformation that is part of the schedule, and may determine a positionin the recorded audio data for a specific station that corresponds tothat start time.

In sub-step 5654, the ERS may use cues in the audio to determine contenttype and/or start and end times. A cue in the audio may be, for example,a brief period of silence, which may indicate the start of one contentitem and the end of another. Another example may be the abrupt change offrequency characteristics, which may similarly indicate the start of onecontent item and the end of another. As another example, the audiocharacteristics at one time may indicate that the content is speech,while at another time the audio characteristics may indicate that thecontent is music. As another example, the audio characteristics mayindicate the “beat time” of the musical content, and this characteristicmay change abruptly. As another example, the total power content oraverage power content of the audio signal may change significantlyindicating a change of content. In any of these examples, or using anyother suitable types of audio cues, the ERS may determine the mostlikely position to match the listener's request such as the start or endof a content item, based on the cues or changes in cues associated withthe recorded content.

In step 5660, after completing the listener's requested jump, thisprocess may complete. If desired, the user may be given feedback, forexample to a display or via an audio output, as to the success of therequest.

FIG. 57 shows a flowchart of a process 5705 to allow a user to mark aposition in the audio being played back. This may be in response, forexample, to a user pressing a “Mark” key or speaking a “mark” command.The steps shown in this flowchart are illustrative. Steps may be omittedor executed in an alternate order, and additional steps may be added. Instep 5710, a copy may be made of the current playback position. Theposition may be stored for later reference. If desired, the ERS may alsostore the current station in step 5715, and store the time or the timeoffset of the position in step 5720. If desired, the ERS may allow theuser to mark a position for each monitored station, or to mark multiplepositions for each station. In step 5725, the process completes.

FIG. 58 shows a flowchart of process 5805 to save an item of content.This may be in response, for example, to a user pressing a “Save” key orspeaking a “save” command. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added.

In step 5810, a new data structure may be created for the saved content.For example a data structure similar to data structure 4500 of FIG. 45may be allocated and initialized. In step 5815, the user may be allowedto name the content. In some embodiments, the user may assign a numberto the saved content. If desired, the saved content may then be accessedat a later time as a favorite station using that number. In someembodiments, the user may speak a name, and the user may able to accessthe content at a later time by speaking the name again. Any othersuitable method for naming or identifying the content item may be used.

In loop 5820, the process may access each block of data between a markedposition (which may have been marked using process 5705 of FIG. 57) andthe current playback position. The marked position may be either beforeor after the current playback position, and this loop will operatestarting with the earlier of the two positions. If there is no markedposition (or if the audio containing the marked position has beendiscarded to make room for later audio), the ERS may indicate to theuser that the save operation cannot be completed, or it may use thestart of the first block of data for the current station instead of themarked position.

For the first and last block of audio to be saved, the ERS mayoptionally trim data from the block that may be outside the desired timerange, in step 5825. For each block, the system may allocate a new blockof memory of the appropriate size in step 5830, copy the compressed datafrom the radio station data structure to the newly allocated memoryblock in step 5835, and link the new block of compressed audio data intothe new data structure for the newly created content item in step 5840.This loop proceeds through each block in step 5845. In step 5850, anyrelated data, signature data, and cue data associated with the savedsegment of audio data may also be copied and stored with the newlycreated content item. The process completes in step 5855.

FIG. 59 shows a flowchart of illustrative process 5905 for playing anitem of saved content. This may be in response, for example, to a userpressing a numeric key corresponding to the content or speaking the nameof the content. The steps shown in this flowchart are illustrative.Steps may be omitted or executed in an alternate order, and additionalsteps may be added. It may be necessary to temporarily disable an audiooutput thread while this process makes some of its data changes.

In step 5910, the current station flag may be set in the data associatedwith the saved content. In step 5915, the current station flag may becleared and the previous station flag may be set in the content that maybe playing when this process begins. Any older previous stations mayalso be changed. In step 5920, playback data fields may be set toreference the saved content. Optionally, in sub-step 5925, the playbackposition of the saved content may be changed to the start of thecontent. Alternatively, the playback position may not be changed, inwhich case playback will begin where it most recently left off. In step5930, the playback direction may be set to forward, playback speed maybe set to normal, and playback may be enabled. This process completes instep 5935.

FIG. 60A shows a flowchart of illustrative process 6005 for uploadingcontent from the ERS. This may be in response, for example, to a userpressing an “Upload” key or speaking an “upload” command. It may also bein response to a command received over a communications device, such ascommunications device 4340 of FIG. 43. The steps shown in this flowchartare illustrative. Steps may be omitted or executed in an alternateorder, and additional steps may be added.

The ERS may upload content to any suitable other device that may beaccessed using a communications device (e.g., a USB port). This may be,for example, a personal computer or a portable music player. The systemmay allow the user to upload saved content. The system may allow theuser to upload content from currently monitored radio station, forexample by uploading the content between a marked position and a currentplayback position (similar to the way that saved content is createdlocally in process 5905 of FIG. 59). The system may also allow the userto specify the communications device as a virtual output device. In thiscase, the audio to be played back may be sent to the communicationsdevice instead of or in addition to the local speakers.

In step 6010, the user may be allowed to select content to be uploaded.If the content is saved content, the user may press a key or speak acommand corresponding to the content's name or other identifier. In thecase of uploading content from the current station, the ERS mayautomatically select the station based on the station selected forplayback. If desired, the ERS may support uploading content from onestation and playing back content from another.

In loop 6015, the ERS processes each block of compressed audio data inthe selected content. If desired, the ERS may trim audio data from thestart of the first block of data and or the end of the last block ofdata as it is processed. In step 6020, the ERS may optionally convertthe data format of each block of data as it is processed. This mayinvolve decompressing the data, recompressing it using a differentalgorithm, or any other suitable processing. In step 6025, each block ofaudio data may be uploaded. If desired, the audio data may be uploadedin a different number of blocks than is stored locally, so that zero,one, or more than one block of data may be uploaded on any giveniteration through this loop. The loop continues at step 6030 until thelast block of data has been processed.

In step 6035, any related data may also be uploaded. This may includeany related data that was broadcast along with the audio data. It mayalso include any other data that may have been entered by the user,downloaded separately, or otherwise obtained. Any signature dataassociated with the item may also be uploaded, in step 6036. In step6040, this process completes.

FIG. 60B shows a flowchart of illustrative process 6045 to downloadcontent into the ERS. This may be in response, for example, to a userpressing a “Download” key or speaking a “download” command. It may alsobe in response to a command received over a communications device, suchas communications device 4340 of FIG. 43. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

The ERS may download content from any suitable other device that may beaccessed using a communications device (e.g., a USB port). This may be,for example, a personal computer or a portable music player. The systemmay allow the user to download and save content. The system may alsoallow the user to specify the communications device as a virtual inputdevice. In this case, the communications device may be treated as atuner. The data received may be stored as it is received, similarly tothe way that data received from a tuner is stored. If desired, thecontent may be played back as it is received, and the user may beallowed to rewind, pause, fast-forward, and otherwise alter theplayback. If desired, the content may be stored at the same time thatcontent from a tuner is being played back.

In step 6050, a new data structure may be created for the downloadedcontent. For example a data structure similar to data structure 4500 ofFIG. 45 may be allocated and initialized. In step 6055, the user may beallowed to name the content. In some embodiments, the user may assign anumber to the downloaded content. If desired, the downloaded content maythen be accessed at a later time as a favorite station using thatnumber. In some embodiments, the user may speak a name, and the user mayable to access the content at a later time by speaking the name again.If desired, a name or other identifier may be downloaded along with thecontent. Any other suitable method for naming or identifying the contentitem may be used. If the content is to be played back as it is received,it may not be given an identifier or name, as it may be discarded afterthe user has listened to it.

In loop 6060, the process may receive each block of data and process theblock as it is received. The data format of the received data mayoptionally be modified in step 6065. This may involve decompressing thedata, recompressing it using a different algorithm, or any othersuitable processing. If desired, the audio data may be stored in adifferent number of blocks than it is received, so that zero, one, ormore than one block of data may be stored on any given iteration throughthis loop. For each block of compressed audio data to be stored, thesystem may allocate a new block of memory of the appropriate size instep 6070, copy the received data to the newly allocated memory block instep 6075, and link the new block of compressed audio data into the newdata structure for the newly created content item in step 6080. Thisloop proceeds through each block in step 6085.

In step 6090, any related data may be downloaded and stored. This mayinclude information such as a title, artist, type of content, and anyother suitable type of data. Signature data for the item may also bedownloaded, in step 6091. The process completes in step 6095.

FIG. 61 shows a flowchart of process 6105 for initiating a scan ofavailable stations. This may be in response, for example, to a userpressing a “Scan” key or speaking a “scan” command. The steps shown inthis flowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

In step 6110, the tuners may be deallocated from any favorite stationsand from the previous station. The tuner may remain allocated to thecurrent station (the one being played back) if desired. If desired, thedata for each of the stations, including compressed audio data andrelated data, may be discarded for the deallocated tuners.Alternatively, the data may be saved until after the scan. In this case,the data may be reassigned to the tuners made available after the scan,allowing the listener to rewind, for example, to content that wasbroadcast prior to the scan. The audio input thread for each station mayalso be disabled.

In step 6115, the starting station of the scan may be set to the currentplayback station. The ERS may then loop 6120 through each of theavailable tuners. In step 6125, the tuner may be set to the previouslyassigned starting station. In step 6130, the tuner may be used to searchfor the next station with an acceptable signal. The scan may berestricted to a single band (e.g., AM only or FM only), or it may jumpto another band when the end of a band is reached. Once an acceptablesignal is found, a data structure may be created for the station, and anaudio input thread may be launched, in step 6135. In step 6140, thestarting station may be updated to the station just tuned, for the nextiteration through the loop.

When there are no more available tuners, the loop may terminate at step6145. In addition, if the newly tuned station is the same as the firststation, the loop may terminate as well. Then, in step 6150, the ERS mayscan to the next station (the first station found at the beginning ofthe loop). Scanning to the next station may entail updating the playbackdata structures to reference the data for the next tuner.

In check 6155, the ERS determines whether all of the tuners have beenallocated for stations in the scan. If all of the tuners have beenallocated, then there are more stations to scan than there are tuners,and one of the tuners will have to be deallocated in order to scan tothe next station. If not all of the tuners have been allocated, thenthere are more tuners than stations, and the scan may proceed withoutdeallocating any tuners and without any more actual tuning.

If all of the tuners have been allocated, the previous tuner (e.g., theone most recently used for output prior to the current tuner) isselected in step 6160 and used to search for the next acceptable signalin step 6165. Then the data structure for the tuner is reinitialized(e.g., old data is discarded, identifying information is set) in step6170 and the starting station value is updated to the station just tunedin step 6175.

After the playback has been updated to refer to the new station, andafter the next tune has taken place if required, a timer may be set forthe next scan. For example, the next scan may take place automaticallyin five seconds. At that time, the ERS will have recorded five secondsworth of audio data for all of the stations that have been pre-tuned.The process completes at step 6185.

When the scan timer fires (step 6190), this process may be reentered atstep 6150, and may again update the playback to the next tuner andsearch for another station if required, and may then set another timer.This process may continue, repeating based on a timer, until terminatedby the user.

The user may stop the scan in process 6205, as shown in the flowchart ofFIG. 62A. This may be in response, for example, to a user pressing a“Stop” key (or pressing the “Scan” key again) or speaking a “stop”command. The steps shown in this flowchart are illustrative. Steps maybe omitted or executed in an alternate order, and additional steps maybe added. In step 6210, the pending scan timer may be cancelled,preventing any further scans from occurring. In step 6215, the tunersand data structures used in the scan may be deallocated, and reallocatedfor normal use. The audio data and related data accumulated during thescan may be discarded. If the audio data and related data from prior tothe scan were retained, they may be relinked. The tuners may be retunedto the favorite stations. The currently tuned station and the mostrecently scanned station may be flagged as the current station and theprevious station. This process may complete in step 6220.

The user may pause the scan in process 6250, as shown in the flowchartof FIG. 62B. This may be in response, for example, to a user pressing a“Pause” key or speaking a “pause” command. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added. In step 6255, thepending scan timer may be cancelled, preventing any further scans fromoccurring. This process may complete in step 6260. While the scan ispaused, the user may continue listening to the current station. The usermay rewind, jump backwards, and otherwise modify the playback of thestation. The user may also set the current station as a favorite stationwhile the scan is paused, and then resume the scan.

The scan may be resumed in process 6195, as shown in FIG. 61. In thiscase, the flowchart shown in FIG. 61 may be reentered at step 6150. Thenext station may be selected, the next tune may occur if required, and anew scan timer may be set.

FIG. 63 shows an illustrative flowchart of a process 6305 for initiatinga search. This may be in response, for example, to a user pressing a“Search” key or speaking a “search” command. The search command may bespecific to the type of search being requested. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

In step 6310, the user may be allowed to initiate a search for aspecific type of content. For example, the user may be allowed toinitiate a search for traffic reports by pressing a “Traffic” key orspeaking a “traffic” command. Any other suitable type of search may beselected. This may include, for example, news, music, jazz, weather,baseball, talk, NPR, Howard Stern, etc.

In step 6315, the user may be allowed to initiate a search for aspecific item of content. This could be, for example, a specific song.If desired, the user may be allowed to search for multiple items ofcontent, in which case the ERS may search for any content that matchesany of the requested items.

The user may also be allowed to specify the action to be taken when thesearch is successful, in step 6320. For example, the user may be allowedto specify that the ERS should immediately switch to the start of thematching content when it is found. The user may be allowed to specifythat the ERS will not automatically switch to the content when matchingcontent is found, but will provide a user notification. Alternatively,the user may be allowed to specify that the ERS should immediatelyselect content other than the matching content when it is recognized ona station that is being played back. For example, the user may specifycertain content items or types of items that are undesirable and othersthat are desirable, and may indicate that the ERS should automaticallyselect content that is desirable when it determines that undesirablecontent is being played back. As another alternative, the user may beable to specify that the ERS should provide user notification whenundesirable content is detected. As yet another alternative, the usermay be able to specify that a copy of the content should be saved whenit is recognized.

The search may be performed using any suitable technique. For example,in step 6325 the ERS may use related data that may have been stored withthe audio data to determine the content, the type of content, or anyother attribute of the content. In step 6330 the ERS may use signaturematching to search for a requested item or list of items. In step 6335the ERS may use previously downloaded schedule information to identifyrequested content or types of content.

In step 6340, the search may be performed immediately. In this case, theERS may search through all currently stored audio data to find anymatching content. If any such content is found, the ERS may jump to thestation on which the content was broadcast and the playback position atwhich it began. FIG. 56 shows a flowchart for allowing a user to selectcontent to which to jump.

If desired, upon receiving the search command from the user, the ERS maybegin an on-going background search for matching content, in step 6345.The user may be allowed to continue to listen to the currently selectedcontent while the search proceeds. The search may continue untilmatching content is found, until the user turns off the ERS, until theuser deactivates the search, or any other suitable event or events. Ifdesired, the ERS may allow the user to initiate multiple searches inparallel in the background. This process concludes at step 6350.

FIG. 64 shows an illustrative flowchart of a process 6405 that may occurwhen a previously initiated search finds an item of matching content.This may be in response to any type of search. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

In check 6410, the ERS may determine the type of search that wasmatched. A search may be for desirable content or for undesirablecontent. A search for desirable content may be performed on all stationsthat are being monitored by the ERS. A search for undesirable contentmay be performed only on the station currently being played back. Asearch may be an automatic tune search or a user notification search. Asearch may be may be for desirable content to automatically save a copyof.

In step 6415, an automatic tune search for desirable content may havematched new content. In this case, the ERS may automatically select thematching station for playback, set the playback position to the start ofthe matched item, and enable normal-speed forward playback.

In step 6420, a notification search for desirable content may havematched new content. In this case, the ERS may notify the user about thematching content. For example, the name of the matching content may bedisplayed on a display device or output to the speakers. The user may begiven an option to immediately tune to the matched content, for exampleby pressing a single key or with an audio prompt. If the user pressesthe key or speaks the tune command, the ERS may select the matchingstation for playback, set the playback position to the start of thematched item, and enable normal-speed forward playback. The prompt mayalso include a user option to save a copy of the matching content. Ifthe user selects this option, the ERS may save a copy of the content. Itmay then automatically play the content, continue with the currentplayback, or give the user the option to play the saved content. If theuser ignores the prompt, the ERS may continue with the current playback.

In step 6425, an automatic tune search for undesirable content may havematched new content on the station currently being played back. The ERSmay have determined, for example, that the previously recorded audiothat is about to be played is content that the user has indicated isundesirable. Alternatively, the ERS may determine that the undesirablecontent is being played after it has started. In this case, the ERS maydetermine whether there is preferable content on any other station (orat any other time on the current station). The system may thenautomatically select the preferable station for playback, set theplayback position to the start of the preferable item, and enablenormal-speed forward playback. In some embodiments, this may simplyentail skipping over the playback of the undesirable content.

In step 6430, a notification search for undesirable content may havematched new content on the station currently being played back. The ERSmay have determined, for example, that the previously recorded audiothat is about to be played is content that the user has indicated isundesirable. Alternatively, the ERS may determine that the undesirablecontent is being played after it has started. In this case, the ERS maynotify the user about the undesirable content. For example, the name ofthe undesirable content may be displayed on a display device or outputto the speakers. In this case, the ERS may determine whether there ispreferable content on any other station (or at any other time on thecurrent station). The user may be given an option to immediately tune tothe preferable content, for example by pressing a single key or with anaudio prompt. If the user presses the key or speaks the tune command,the ERS may select the preferable station for playback, set the playbackposition to the start of the preferable item, and enable normal-speedforward playback. In some embodiments, this may simply entail skippingover the playback of the undesirable content. If the user ignores theprompt, the ERS may continue with the current playback.

In step 6435, a save-copy-type search may have matched new content onany station (whether the current station or any other station beingmonitored). In this case, the ERS may automatically save a copy of theidentified content (for example, as shown in FIG. 58). If the content isrecognized prior to the completion of its broadcast, the ERS may need towait to save the copy until the broadcast is complete. If desired, theERS may notify the user that the content has been saved, and may includean identification of the content. If desired, the system mayautomatically switch playback to the saved content or may give thelistener the option to switch to the saved content.

In step 6440, the ERS may optionally continue the search in thebackground. For example, the user may wish to have the ERS continuouslysearch for desirable and undesirable content, and automatically switch.Alternatively, the ERS may stop searching once it has found a firstmatching item of content. For example, if the search was configured tosave a copy of the content, the search may not be continued after it issuccessful the first time. If desired, whether the search continues maybe a user selection, made either when the search was initiated or whenthe matching content was found. In step 6445, this process completes.

FIG. 65A shows a flowchart of illustrative process 6505 that may beinitiated when the user turns on the ERS. For example, the user maypress an “On” button or speak an “on” command. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

The ERS may have been continuously recording all monitored stationswhile it was turned off, as long as it had power and an incoming radiosignal. In step 6510, recording may continue uninterrupted when the ERSis turned on. The display may be turned on, and user controls may beenabled. In step 6515, audio playback may be re-enabled for the stationmarked as currently selected. If desired, the user may be allowed torewind, skip back, or search to listen to content that was broadcastwhile the ERS was turned off. This process completes in 6520.

FIG. 65B shows a flowchart of illustrative process 6550 that may beinitiated when the user turns off the ERS. For example, the user maypress an “Off” button or speak an “off” command. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

In step 6555, recording may continue uninterrupted when the ERS isturned off. The display may be turned off, and user controls (except the“on” control) may be disabled. In step 6560, audio playback may bedisabled. This process completes in 6565.

FIG. 66 shows a flowchart of illustrative process 6605 for allowing auser to listen to an alternate audio source. For example, the ERS mayhave an integrated CD player. This process may be initiated, forexample, when the user presses a “CD” key or speak a “CD” command. Thesteps shown in this flowchart are illustrative. Steps may be omitted orexecuted in an alternate order, and additional steps may be added.

In step 6610, the user may be allowed to select an alternate audiosource. For example, the ERS may have a “CD” key, or recognize a “CD”spoken command. As another example, a CD player may automatically beselected when a CD is inserted. Any other suitable type of userselection may be used, and any suitable type of alternate audio inputsource may be supported. In step 6615, the ERS may switch the audiooutput to the selected source. For example, the playback-enabled flagmay be cleared and an audio output switch, such as audio output switch4322 of FIG. 43, may be toggled. In step 6620, recording may continueuninterrupted on all monitored stations while the alternate audio sourceis output. In step 6625, the user may be allowed to reselect the radiofor playback. For example, the ERS may have a “Radio” key, or recognizea “radio” spoken command. When the user reselects the radio, recordingmay continue uninterrupted on all monitored stations in step 6630. Instep 6635, the radio output may be enabled. For example, theplayback-enabled flag may be set and an audio output switch, such asaudio output switch 4322 of FIG. 43, may be toggled. This processcompletes in step 6640.

In some embodiments, the audio output from the alternate source may bereceived as an input to the ERS, digitized, and treated as another tunerinput. In these embodiments, the listener may use any of the playbackcontrols while listening to the alternate audio source. For example, thesystem may support variable playback speeds and direction, jumping,searching, signature creation, and saving of content.

FIG. 67 shows a flowchart of illustrative process 6705 to create an itemsignature for an item of audio content. For example, the user may pressa “Save Signature” button or speak a “save signature” command. The stepsshown in this flowchart are illustrative. Steps may be omitted orexecuted in an alternate order, and additional steps may be added.

In step 6710, the user may be allowed to name the item. If the item hasbeen previously saved, than the ERS may simply use the name and otherinformation that are associated with the item. If the item is a segmentof content from a currently monitored radio station, the user may beallowed to speak a name or otherwise enter an identifier for the item.If desired, any other identifying information may be entered. Forexample, the user may be allowed to enter a content type (e.g., song,commercial, etc.). The user may be allowed to enter a preference typefor the content as well. For example, the user may press a “Like” or“Dislike” key.

In step 6715, the end points of the content may be determined. If theitem has been previously saved, then the end points are the start andend of the item. If the item is a segment of content from a currentlymonitored radio station, the current playback position and the savedplayback position may be used as the start and end point.

In step 6720, the start and end of the signature block are identified.If the item is a segment from a currently monitored radio station, theERS may determine which signature word corresponds to the start time ofthe item, and which signature word corresponds to the end time of theitem. The full set of signature words between these two points will thenbe considered in creating the item signature. If the signature words arestored in a circular buffer, the set may be accessed in two parts.

In step 6725, the process identifies signature runs. These are sets ofconsecutive signature words that are identical, or nearly identical. Ifdesired, there may be a threshold of number of bits of variance amongsignature words in the run (e.g., all signature words must match atleast 15 out of 16 bits of all of the other signature words in the run).

In step 6730, the runs may be prioritized. Any suitable factors may beconsidered in prioritizing the runs. For example, the length of the run(number of consecutive signature words) may be considered in sub-step6731, providing that longer runs are higher priority. In sub-step 6732,runs close to the start or end of the segment block may bede-prioritized (or ignored). Because radio stations often overlapcontent with the start or end of a song, signature data from that partof the song is not reliable. Also, if the signatures are derived from acompression algorithm that may incorporate information from priorsamples, the signature words at the start of an item of content may beinfluenced by whatever content happened to be played just prior. Ifdesired, the number of signature words ignored at the start of thecontent item may be different from the number ignored at the end.

In sub-step 6733, runs may be prioritized based on the number of maskbits in the run. For example, the average number of mask bits may becalculated over the length of the run, and the priority may be decreasedas the number increases. In sub-step 6734, the runs may be prioritizedto maximize distribution throughout the content. Runs that are adjacentor otherwise near in time may be de-prioritized. In sub-step 6735, someruns that are early in the signature (i.e., correspond to the earlierbroadcast audio) may be given a higher priority.

In step 6740, a keyword may be chosen. This is a single signature wordthat corresponds to the “best” run. The run should have few mask bitsand should be a long run. Preferably, it should be closer to the startof the content to allow matches to be detected earlier. The keywordvalue may be determined by calculating the value that has the most bitsin common with all of the signature words in the run. As part ofchoosing the keyword, the algorithm may determine a keyword threshold.This is a number of bits that any incoming signature word must have incommon with the keyword before a preliminary match will be determined.This threshold may be based on the average number of mask bits for therun from which the keyword was taken, as well as the variation among thesignature words in the keyword run. The algorithm may also calculate thekeyword offset, which is the number of signature words from the start ofthe content to the middle of the keyword run.

After choosing the keyword, the algorithm may choose the individual itemsignature words, in step 6745. These are signature values taken from the“best” (highest priority) runs throughout the content item, excludingthe keyword run. For example, the algorithm may choose an additionaleight signature values. For each signature word, the algorithmcalculates an offset. This offset may be calculated as the number offrames between the middle of the keyword run and the middle of the runfor the particular signature word. The offset may be positive ornegative, as the signature word may be either before or after thekeyword. The algorithm may also calculate a match threshold for the itemsignature. This threshold may be calculated individually for eachsignature word based on variation among signature words in the run andaverage number of mask bits for the run, and then summed to create asingle threshold for the entire item signature.

If desired, the item signature may be biased based on the user's levelof interest in the item. Biasing the item signature may involveincreasing the likelihood of a false match while decreasing thelikelihood of a missed match, or it may involve decreasing thelikelihood of a false match while increasing the likelihood of a missedmatch. For example, if the user has indicated that the item is dislikedand is to be automatically skipped, the item signature may be biased todecrease the likelihood of a false match, so that incorrectly-matchedcontent is less likely to be skipped. Conversely, if the user hasindicated that the item is liked and the user is to be notified when theitem is found, the item signature may be biased to decrease thelikelihood of a missed match while increasing false matches. Biasing theitem signature may be accomplished, for example, by increasing ordecreasing the match threshold and/or the keyword threshold.

In step 6750, the item signature may be saved. This may include: a nameor other identifier; category of the content (e.g., commercial, song,jazz, rock, etc.); the listener's preference level; the length of thecontent item (e.g., the number of audio samples, blocks, frames,seconds, or other measure from the start to the end); a keyword value,offset, and threshold; the individual signature values and offsets; andthe signature match threshold. The item signatures may be stored in anysuitable data structure, such as an array or a linked list. They may besorted in any suitable manner. For example, all item signatures forcontent liked by the listener may be stored together, item signaturesfor content disliked by the listener may be stored in a separate list,and item signatures for content items to be saved may be stored in athird list. Because each individual item signature is small (e.g., 50 or100 bytes), many of them may be stored in a limited amount of memory.

This process ends at step 6755.

FIG. 68A shows a block diagram of an illustrative data structure 6800that may be used to hold a station signature—the accumulated signaturedata that corresponds to the audio data that has been recorded for aradio station. Data structure 6800 may be a circular buffer, and it mayhold each of the individual signature words 6805 and mask words 6810that correspond to each of the audio blocks or frames. Pointer or index6815 may refer to the signature/mask word pair that has most recentlybeen written (e.g., that corresponds to the most recently recorded audioon the station.) Pointer or index 6820 may refer to the oldestsignature/mask word pair (e.g., that corresponds to the oldest audiodata for the station that has not been overwritten.) As data structure6800 may be a circular buffer, when each new signature/mask pair iswritten, if the buffer is full the oldest pair may be overwritten. Ifdesired, other types of data structures such as a linked list may beused. If desired, the signature data may be incorporated directly intothe compressed audio blocks—e.g., each audio block (such as compresseddata block 5010 or FIG. 50) may include the signature and mask data thatcorresponds to the data in the block.

FIG. 68B shows a block diagram of a data structure 6850 that may be usedto hold an item signature—a relatively small representation of an itemof content (e.g., a song or commercial) that may be used to recognizethe item when it is broadcast. The elements of this structure areillustrative. Elements may be omitted and additional elements may beadded if desired.

Field 6851 is an identifier. This may be an identifying number, a name,or any suitable combination of identifying attributes. Field 6852 is alength. It represents the length of the item of content. It may beexpressed in any suitable units, such as seconds or milliseconds, numberof signature words, number of frames or blocks of compressed data, orany other appropriate units. Field 6853 may include one or more typeattributes of the item. For example, it may differentiate between songs,commercials, talk, etc. It may differentiate between genres of music,such as country, alternative, classical, etc. It may include alistener's preference level, such as like or dislike, or a level ofliking or disliking. It may also indicate an action to be taken when theitem is found, such as jumping to it, skipping it, or saving a copy.

Field 6860 may be a keyword signature word. This may be a singlesignature word that may be used to trigger a recognition process. Field6861 may be a mask word corresponding to the keyword signature word.This mask word may be used to evaluate the quality of any match detectedwith the keyword. If desired, the keyword mask may be omitted. Field6862 may be a keyword offset. It may represent, in any suitable units,the time offset from the start of the item of content to the point inthe item represented by the keyword. Field 6863 may be a keywordthreshold. This threshold may be used to determine whether any signatureword is close enough to the keyword to proceed with the match process.If desired, keyword threshold 6863 may be omitted and a standardpredetermined threshold value may be used for all signature keywords.

Item signature 6850 may include a number of individual signature words(e.g., signature word 1 6870 and signature word n 6880.) Each individualsignature word may be taken from a full station signature, such asstation signature 6800. The number of signature words in the itemsignature may be much fewer than the number of signature words in thecorresponding segment of the station signature. For example, each itemsignature may include eight signature words in addition to the keywordsignature. If desired, each item signature may have the same number ofsignature words. Alternatively, the number of signature words in theitem signature may be variable, and item signature 6850 may includesignature word count 6886 that defines the number of individualsignature words present in the particular item signature.

If desired, there may be a mask word (e.g., mask word 1 6871 and maskword n 6881) corresponding to each signature word. Alternatively, themask words may not be stored as part of the item signature. There mayalso be an offset value (such as offset 1 6872 and offset n 6882)corresponding to each signature word. The offset value may define thetime offset of the signature word. The offset may be in any suitableunits, and may be relative to the keyword or to the start of the item ofcontent. Item signature 6850 may also include match threshold 6885,which may define the number of bits that must match across all of thesignature words in order for a match to be declared. For example, ifthere are eight 16-bit signature words in the signature, match threshold6885 may be defined as 123, in which case 123 matching bits out of 128are required to declare a match. The match threshold may have beencalculated based on the number of mask bits corresponding to theoriginal signature words from the station signature used to create theitem signature. If desired, match threshold 6885 may be omitted and astandard match threshold may be used for all item signatures.

Item signatures may be stored in any suitable data structure. Forexample, three linked lists may be created. The first linked list mayinclude all item signatures for content that the listener likes. Thesecond linked list may include all item signatures for content that thelistener dislikes. The third linked list may contain all item signaturesfor content that the listener has asked to save.

FIG. 69 shows a flowchart of illustrative process 6905 to compare anitem signature with the audio content at a specific location in astation signature. This process may be executed, for example, as part ofa process to find a specific item of content, as part of an on-goingprocess to find content the listener likes, or as part of an on-goingprocess to find content that the listener dislikes. The steps shown inthis flowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

In step 6910, the process looks for the signature word in the stationsignature that corresponds with the keyword in the item signature. Thismay be accomplished using the keyword offset field in the itemsignature. If the station signature is stored in a circular buffer, theprocess may add the keyword offset value to the starting search positionin the station signature to do this (with wrapping if the end of thebuffer is found).

In step 6915, the signature word in the station signature at the keywordoffset location is compared with the keyword signature. The number ofbits matching between the two words may be calculated. In someembodiments, this is done by performing an exclusive-or function on thetwo values, counting the number of bits in the result, and subtractingthe count from the total number of bits in the signature word. In someother embodiments, this may be done by comparing the individual bitfields. For example, if each signature word consists of 32 two-bitfields, the corresponding fields in the two words may be compared. Foreach comparison, depending on the two values, the number of matchingfields may be incremented, the number of non-matching fields may beincremented, or the number of indeterminate fields may be incremented.In check 6920, the number of matching bits is compared with the keywordthreshold value in the item signature. If the number of matching bits isless than the threshold, the process may return an invalid matchindication in step 6925. If the number of matching bits is greater thanor equal to the threshold, the process continues.

Loop 6930 processes each of the signature values in the item signature.The number of signature words may be determined by a signature wordcount stored with the item signature. In step 6935, the process looksfor the signature word in the station signature that corresponds withsignature word in the item signature. This may be accomplished using thecorresponding signature offset field in the item signature, by addingthe signature offset to the keyword offset (assuming the signatureoffset is specified relative to the keyword location). In step 6940, thesignature word in the station signature at the signature offset locationis compared with the signature word from the item signature. The numberof bits matching between the two words may be calculated and accumulatedover all of the signature words in the item signature in step 6945. Thecomparison of signature words may be accomplished using an algorithmsimilar to that used for the keyword signature, described above inconjunction with step 6915. In check 6950, the process checks for thelast signature word in the item signature. It continues with the loop ifthe last signature word has not been processed.

In check 6955, the accumulated number of matching bits is compared withthe signature match threshold value in the item signature. If the numberof matching bits is less than the threshold, the process may return aninvalid match indication in step 6925. If the number of matching bits isgreater than or equal to the threshold, the process may return a validmatch indication in step 6960.

FIG. 70 shows a flowchart of illustrative process 7005 to search for anitem of content based on its signature. This process may be executed,for example, as step 6325 of FIG. 63. The steps shown in this flowchartare illustrative. Steps may be omitted or executed in an alternateorder, and additional steps may be added.

In loop 7010, the station signature for each station is searched inturn. The stations may be searched in any suitable order. For example,they may be searched in the order of their favorite station identifier,in the order corresponding to how recently they were listened to, byfrequency, or based on any other suitable criteria or combination ofcriteria. In loop 7015, each location within the station signature forthe station being processed is searched. The locations may be searchedfrom oldest to newest or from newest to oldest. Locations in the stationsignature may not be searched if they are too new to have enoughsignature data after them to perform a complete match against the itemsignature. If desired, the order of these two loops may be reversed,searching all stations for each time offset before proceeding to thenext time offset.

In step 7020, a signature comparison is performed on the selectedstation at the selected offset. This may be done using the process ofFIG. 69. If no match is reported, the offset loop may proceed in step7030, and the station loop may proceed in step 7035. If no match isfound and both loops complete, a negative search result may be returnedin step 7040.

If a match is found at any offset on any station, the process mayremember the offset and station on which they were found in step 7045.These values may be remembered if the search is reentered at a latertime, at which time the search may restart from this location. In step7050, the process returns a positive match. This may include the startand/or end time at which the matching item was found and the station onwhich it was found.

FIG. 71 shows a flowchart of illustrative process 7105 to check forsignature matches on a station. This process may be executed, forexample, as step 4740 of FIG. 47, as part of an audio input thread whennew signature data is generated. Alternatively, it may be executed aspart of a separate thread. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added.

In loop 7110, the process selects each item signature to be compared inturn. If the station on which the comparison is taking place is thecurrent station, this might include the list of all items that thelistener has identified as disliked (e.g., so that they may be skippedover). If the station on which the comparison is taking place is not thecurrent station, this might include the list of all items that thelistener has identified as liked (e.g., so that the listener may benotified). If the listener has designated some content items to be savedwhen they are recognized, then this comparison may take place regardlessof whether the station is the current station.

In step 7115, the process identifies the location in within the stationsignature at which to make the comparison. Preferably, this location issuch that all of the signature words will have occurred, but as soon aspossible after that so that the match will be detected as early aspossibly (e.g., before the broadcast of the item has completed). Forexample, the process may subtract the maximum signature offset in theitem signature (relative to the keyword offset) from the location of themost-recently-written signature word, add that to the keyword offset(relative to the start of the item), and check to see if the item startsat that location. Alternatively, if the search is configured to save acopy of the matched content, the comparison may be delayed until thefull length of the content is available (subtracting the length of theitem and adding the keyword offset). In step 7120, the comparison takesplace between the item signature and the recent content of the stationsignature, for example using the process illustrated in FIG. 69.

If a match is found in check 7125, the match is signaled in step 7130.This may be accomplished using a flag or message or other type of signalto another process. If desired, this process may “debounce” the matchresult. This may consist of determining whether the same match occursmultiple times in a row, or within a short time of a previous match ofthe same item signature. In this case, only a single match may besignaled to the other process.

In check 7135, the process checks to see if more item signatures are tobe compared. If so, the loop continues. If not, the process exits atstep 7140.

FIG. 72 shows a flowchart of illustrative process 7205 for synchronizingan ERS with another device. The other device may be, for example, apersonal computer or a portable audio player. This process may beinitiated when the user initiates a synchronize command from either theERS or from the other device. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added.

If desired, this process may be executed in real-time over acommunications link. For example, this may be done using communicationsdevice 4340 of FIG. 43. Alternatively, this may be done using a memorydevice that may be accessed by both the ERS and the other device. Forexample, both the ERS and the other device may have hardware andsoftware to read and write a removable flash memory card in the sameformat.

This process may be used to backup data on the ERS to a personalcomputer. It may be used to restore previously backed up items to theERS. It may be used to send new items to the ERS. It may be used toallow the user to use more capable input and output devices (such as akeyboard, mouse, and CRT monitor) to enter information for the ERS. Itmay be used to allow an ERS listener to share preferences and databetween multiple ERSs (e.g., one at home, one in the car, etc.) It mayalso be used to allow multiple users of ERSs to share information, suchas songs and item signatures.

The other system may allow the user to identify audio content items todownload in step 7210. For example, a user of a personal computer may beallowed to select compressed audio files, such as MP3 files, that arestored on a local hard drive or other storage. The user may also beallowed to select compressed audio files over the Internet, which mayrequire the payment of a fee. Software on the personal computer may keeptrack of how much unused memory is available in the ERS or on theremovable memory device, and constrain the number of audio files thatmay be selected.

The other system may allow the user to identify item signatures todownload in step 7215. For example, a personal computer may havesoftware to generate item signatures from compressed audio files storedon a storage device in the computer. The user may also be allowed tosubscribe to a signature service over the Internet. This may allow theuser to specify categories of content or specific items, and to downloadsignatures for these items over the Internet, for downloading into theERS. For example, the user may specify a performing artist, and for afee download signatures for all songs by that performing artist. Theuser may also be able to download item signatures for the set ofcommercials currently being aired in a local radio market, which mayalso be for a fee, so that they may easily be skipped by the ERS. Asanother example, the user may be able to subscribe to a service todownload signatures for a particular radio station. This might includesignatures for songs on the station's play list, signatures forcommercials that are being aired by the station, signatures for stationpromotions, etc. Each of the signatures may be associated withinformation, such as the type of item (commercial, song, promotion,etc.), title, artist, etc. When downloading the set of commercialsignatures, the system may also provide a list of signatures forcommercials that are no longer being broadcast, so that they may bedeleted from the ERS. When the user specifies item signatures todownload, the user may also be able to specify how each item signatureis to be used by the ERS. For example, the user may be allowed tospecify that the ERS should search out and notify the user when matchingcontent is found. The user may be allowed to specify that matchingcontent be skipped by the ERS. The user may be allowed to specify that acopy of the matching content should be saved by the ERS when it isbroadcast. The user may be allowed to specify that the ERS shoulddisplay information about the item when it is detected. Any othersuitable handling may be specified.

The other system may allow the user to set preferences for use in theERS in step 7220. For example, a software application on the personalcomputer may allow the user to change favorite station settings for theERS. The application may access a database of available radio stationsover the Internet, and provide detailed information to the user offormats, play lists, etc. The software application may also allow theuser to set other types of preferences. For example, the user may beallowed to define genres of music that are preferred or are disliked.The user may be allowed to set or change configuration options for usein the ERS. For example the user may be allowed to specify whether theERS should jump to the current broadcast position (“live”) when changingchannels, or whether the ERS should resume from where it left off. Asanother example, the user may be allowed to specify priorities forfavorite stations, and to specify a minimum time to retain for each. Anyother suitable types of configuration information may be supported.

The other system may allow the user to specify any other suitable typesof data for downloading during synchronization. For example, the usermay be allowed to specify a software upgrade, which may be obtained overthe Internet, to be downloaded during the next synchronization.

In step 7225, the user may be allowed to save audio content on the ERS,for example as shown in FIG. 58. In step 7230, the user may be allowedto create item signatures for audio content received by the ERS, forexample as shown in FIG. 67. In step 7235, the user may be allowed tomodify configuration settings on the ERS, for example as shown in FIG.52A. If desired, the ERS or the other system may allow the user tospecify which of the saved content items, item signatures, andconfiguration settings to upload. Alternatively, the system may uploadall of these items when synchronization takes place. Any other suitabletypes of data may be uploaded during synchronization. For example, theERS may upload usage information to be used by a ratings service.

In step 7240, the identified items are transferred from the other deviceto the ERS. For example, they may be sent using a device such ascommunications device 4340 of FIG. 43. Alternatively, the data may bewritten to a removable memory device that is shared with the ERS. Whendata is downloaded, it is converted into the data structures used by theERS. For example, compressed audio content items may be converted into alinked list format similar to that shown in FIG. 50. Item signatures maybe added to linked lists depending on the type (e.g., content to beskipped, content that the listener likes, content to be automaticallysaved).

In step 7245, the items on the ERS are uploaded to the other device. Forexample, they may be sent using a device such as communications device4340 of FIG. 43. Alternatively, the data may be written to a removablememory device that is shared with the other device. As data is uploaded,it may be converted into a format suitable for the other device. Forexample, the compressed audio data may be stored into files on thepersonal computer, and item signatures may be stored in a database onthe personal computer.

In step 7250, the items may be synchronized. If similar items areavailable in both places, the two may be reconciled. For example, if theuser has changed configuration settings in one or both locations, themost recent changes may be retained. If there are two copies of acompressed audio item or an item signature, only one copy needs to beretained in either location.

In step 7255, any old, unused items may be automatically deleted on theERS. For example, if an item signature from the other device contains anindication that it is for a commercial that is no longer beingbroadcast, that signature may be deleted. If the user has deleted anitem (e.g., a song or an item signature) on the personal computer, thecorresponding item may be deleted from the ERS's memory. The ERS mayalso track the last time any item signature successfully matched anincoming broadcast, and certain item signatures (e.g., item signaturesfor commercials) may be automatically deleted from the ERS if they havenot been seen for a predetermined number of days.

In step 7260, this process completes.

FIG. 73 shows a flowchart of illustrative process 7305 to automaticallyset the favorite stations in the ERS. This process may be executed inresponse to a user command to “set all”. Prior to executing thisprocess, the user may be given the opportunity to save the definitionsof the current favorite stations, as shown in FIG. 52B. The steps shownin this flowchart are illustrative. Steps may be omitted or executed inan alternate order, and additional steps may be added.

In step 7310, the user may be allowed to synchronize information betweenthe ERS and a personal computer, for example as shown in FIG. 72. Thismay include the synchronization of user preferences (e.g., preferredmusic genres and station formats) and item signatures for liked anddisliked content. For example, this information may be stored onto aremovable memory card by the personal computer, and the removable memorycard may be inserted into an ERS in a car, such as a rental car, that isbeing driven in an unfamiliar area.

In loop 7315, the ERS processes all available radio stations. In step7320, the ERS searches through all available radio stations. One or moreof the tuners in the ERS is used to scan through the stations that maybe received in the current location. This may be done in the backgroundwhile the user listens to other content, or it may be done in theforeground so that the user may hear each station in turn. It may bedone using a single tuner, or using multiple tuners to find desirablestations more quickly. In step 7325, each of the stations is monitoredfor a period of time. This may be a predetermined period of time, untilsuitable related data is received, until a certain number of signaturematches are detected, or any other suitable criteria or combination ofcriteria. In step 7330, some of the monitored stations may be set asfavorites. This may be based on the criteria such as matching betweenrelated data and the user's preferences, matching of item signatures forliked content, matching of signatures for disliked content, and anyother suitable criteria. If appropriate, none of the monitored stationsmay be set as a favorite station. In check 7335, if there are stillstations left to check and not all of the tuners are being used forfavorite station, the loop may continue. Any tuners set to newly-definedfavorite stations may be removed from the set used to monitor newstations in subsequent loop iterations. In step 7340, this processcompletes.

FIG. 74 shows a flowchart of illustrative process 7405 of allowingremovable memory in the ERS. The steps shown in this flowchart areillustrative. Steps may be omitted or executed in an alternate order,and additional steps may be added.

In step 7410, a removable memory device may be included as part ofmemory in the system, for example as part of memory 4314 of FIG. 43. Theremovable memory device may be configured to use (i.e., read and/orwrite) removable memory media. As one example, this may be a flashmemory card that may also be configured to be accessible by one or moreother system. As another example, this may include a CD-ROM drive. Ifdesired, any other suitable type of removable memory device may besupported. If desired, multiple removable memory devices may besupported.

In step 7415, the ERS may play music from the removable memory device.For example, the removable memory device may be a CD-ROM drive, and theERS may play music that is stored on a music CD or on a CD-ROM that isinserted into the CD-ROM drive.

In step 7420, music may be copied using the removable memory device. Forexample, songs that are stored on a music CD or on a CD-ROM may becopied into memory that is built into the ERS, and may be madeaccessible for later playback. If desired, the music may be converted informat as it is copied. This may include, for example, changingcompression formats and putting it into the linked list structure usedwithin the ERS. If desired, the music may be copied automatically whenthe removable memory media is inserted into the removable memory device.Alternatively, it may be copied when the user executes a command, forexample pressing a “Load Music” key or speaking a “load music” command.As another example, music may be copied from the ERS's built-in memoryto the removable memory media (e.g., flash memory device) when the usergives a command to do so.

Other types of information may be copied from the removable memory mediato the ERS's built-in memory, or from the ERS's built-in memory to theremovable memory media. This may include copying signature data in step7425, copying user preferences in step 7430, and copying related data instep 7435. This may include automatic copying when the media isinserted, or copying on user command.

In step 7440, software may be copied from the removable memory media tothe built-in memory. This may be, for example, a software upgrade forthe ERS. The software upgrade may be loaded automatically when theremovable memory media (e.g., CD-ROM) is inserted. If desired, theremovable memory media may include a security code or other feature toprevent unauthorized software form being loaded. If desired, software onthe removable memory media may be executed directly from the removablemedia.

Any other suitable types of data may be copied to or from the removablememory media. The ERS may also use any other suitable types of datadirectly from the removable memory media. This process completes at step7445.

FIG. 75 shows a flowchart of illustrative process 7505 of supportingsecurity in the ERS. The steps shown in this flowchart are illustrative.Steps may be omitted or executed in an alternate order, and additionalsteps may be added.

In step 7510, the audio data may be encrypted. Any suitable encryptionalgorithm may be used. The audio may be received in an encrypted format,or it may be encrypted after it is received by the ERS. The encryptedaudio may be decrypted when it is played back. In sub-step 7511, theaudio data may be encrypted when it is uploaded, to provide securecopying or to prevent unauthorized access of the uploaded copy. Insub-step 7512, the audio data may be encrypted when it is downloaded, toprovide secure copying, or to provide a secure version to the ERS. Insub-step 7513, the audio data may be encrypted when it is stored inmemory in the ERS, to provide a secure local copy.

In step 7520, the ERS may support copy control, in which informationrelated to the content indicates whether copying is authorized, and ifso whether the number of copies is limited. For example, an item ofcontent may carry a flag that indicates that the content may be copiedan unlimited number of times, that only a single copy may be made, orthat no copying is authorized. When the user attempts to make a copy ofa content item that is marked for no copying, the ERS may deny theuser's request, and may notify the user that the item may not be copied.When the user attempts to make a copy of a content item that is markedfor only a single copy, the ERS may allow the copy, but may mark thecopy as not permitting any additional copies. When the user attempts tomake a copy of a content item that is marked for unlimited copying, orwhich is not marked with copy control information, the ERS may allow thecopying with no restrictions. Copy control may be enforced whenuploading an item of content to another device in sub-step 7521, whendownloading an item of content into the ERS from another device insub-step 7522, or when saving a copy of an item of content within theERS, in sub-step 7523. Copy control information may be received with theradio broadcast in sub-step 7524. In sub-step 7525, the copy controlinformation may be stored with an item of content. In sub-step 7526, thecopy control information may be stored with an item signature. In thislatter case, the copy control information may indicate to the ERSwhether a copy of the item is permitted when a matching item is detectedin the incoming radio broadcast.

In step 7530, the ERS may support copy protection. When copy protectionis enabled, the ERS may modify the output audio signal to preventcopying. Copy protection information may be received as part of thebroadcast radio signal in sub-step 7531, stored with an item of contentin sub-step 7532, or stored with an item signature in sub-step 7533.

In sub-step 7540, the ERS may support a removable security feature. Forexample, the ERS may have a slot for a smart card. The smart card mayprovide encryption keys, decryption keys, or any other securityinformation. The ERS may prevent access to any content with securitycontrols if the smart card is not present. If desired, different usersmay have different smart cards, which may provide access to differentlevels of security. If desired, a password or PIN may be required inconjunction with the smart card. If desired, the security algorithms maybe implemented on the smart card, so that they may easily be replaced inthe event that security is compromised.

This process completes at step 7550.

FIG. 76 shows a flowchart of illustrative process 7605 of allowing auser to record in-progress content in an ERS. The steps shown in thisflowchart are illustrative. Steps may be omitted or executed in analternate order, and additional steps may be added.

This process may be initiated, for example, by a user who needs to turnoff the ERS but who is listening to an item of content that is ofparticular interest. The user may speak a “Save” command or press a“save” button, to indicate that the current content is to be saved andmade available for playback at a later time.

In step 7610, the ERS may determine the start and the end points of thecontent to save, on the station currently being played. In sub-step7611, these may be default, predetermined points relative to the currentplayback point. For example, the ERS may always save the contentstarting one minute prior to the current playback point and ending tenminutes after the current playback point. In sub-step 7612, the user maybe allowed to specify the start and/or the end point. For example, theuser may press an “Extend” key to add one minute to the desired endpoint, and the range of time (e.g., −1 minute to +8 minutes) may bedisplayed on a display device for confirmation. In sub-step 7613, thestart and/or end time may be time based. For example, the content savedmay be on a half hour boundary. In sub-step 7614, the start and/or endpoint may be determined automatically based on cues in the broadcastaudio, such as change from music to talk, change in power level, etc.Any other suitable method for determining the start and end point may beused. If desired, different methods may be used to determine the startpoint and the end point.

In step 7620, the user may be allowed to turn off the ERS, changestations, change to an alternate audio source, or otherwise deselect thecurrent radio station. The ERS continues to monitor and record thecontent from the selected station. If desired, the priority of thestation may be temporarily increased, so that the memory used to recordthe requested content is not deallocated until the copy has been saved.In step 7625, the ERS may wait for the determined end point of thecontent to be saved. If the entire content is available at the time theuser makes the save selection, this step may be skipped. For example,the user may have rewound the playback of the station so that therequest may be satisfied immediately. In step 7630, the content may besaved, for example as shown in FIG. 58. If desired, rather than waitingfor the requested end point, the ERS may save each block of audio as itbecomes available. In step 7635, the saved content may be made availablefor playback. For example, it may be assigned a name or number to allowthe user to select it. As another alternative, it may begin playbackimmediately when the user next turns on the ERS. If desired, the savedcontent may be deleted automatically after the user listens to it, forexample, when the user tunes to another station, or jumps to thecurrently broadcast content on the same station. This process ends instep 7640.

FIG. 77A illustrates an embodiment of a faceplate of a 3D Radioaftermarket car stereo system. This is an illustrative implementation,and other implementations are possible within the spirit of thisinvention. The look and feel may be altered, the names of the buttonsmay be changed, buttons may be added or removed, and other suitablealterations may be made. In addition, similar features may be used inproducts designed for other environments, such as home audio systems andportable music devices.

With further reference to FIG. 77A, the illustrated 3D Radio devicesupports six preset radio stations, generally designated by referencenumeral 7704. In one embodiment, user can set the radio stations tohis/her favorite radio channels. Preferably, a plurality of preset radiostations can be supported. Radio system 7700 can support at least sixradio tuners, with one tuner devoted to each preset station. In oneembodiment, radio system 7700 may include eight radio tuners, one radiotuner corresponding to each of the 6 preset radio stations, one radiotuner to allow a station other than one of the favorite radio stationsto be received at the same time as all of the presets, and one spareradio tuner to keep track of the most recently tuned station in order toallow continuous reception of that particular station.

The radio tuners can receive radio signals using a plurality ofsupported technology. These may include AM, FM, HD, satellite, Internet(e.g., using Wi-Fi), or other technology.

The device 7700 can include adequate memory to buffer a predeterminedamount of digitized and compressed audio for the received stations. Forexample, to be able to buffer one hour of audio from each of the eightstations, the device may include one-half gigabyte of internal memory.The device may include additional memory. For example, the device mayinclude a total of 1 gigabyte of internal memory to allow one hour ofstorage per station plus an additional eight hours of storage for savedsongs and other audio content. Memory may include memory chips orcartridges, (e.g., RAM, dynamic RAM, static RAM, programmable read-onlymemory (PROM), erasable programmable read-only memory (EPROM), flashmemory, and other memory chips or cartridges), and any other medium towhich a computer can write and from which a computer can read (such as adisk drive).

The device can include one or more processors, such as digital signalprocessors, and other circuits to compress the received audioinformation digitally and store it into the memory. The audio data maybe stored, for example, in MP3 format. The processor can perform othertasks, such as controlling the audio output of the device and managingthe user inputs and outputs.

In the present embodiment, the 3D Radio device 7700 can continuouslyreceive, compress, and store audio data from the eight tuners (e.g.,each of the tuners) (six presets, current station, and previous station)into the memory device. The processor can continue to monitor the statusof the memory device. When an hour of audio programming is availablefrom any stored audio data, the oldest audio data may be overwritten, sothat the most recent radio programming from the station is available forlistening.

The 3D Radio may support connections to several external devices, forexample:

-   -   Music CD, CD ROM, DVD or digital audio player    -   Flash drive over the USB port    -   Flash memory (e.g., SD, CF or memory stick) device    -   Mobile phone using Bluetooth or other wireless connection

In accordance with one or more embodiments, a radio device able toreceive multiple radio stations simultaneously (which is sometimesreferred to herein as 3D Radio device) having different operationalmodes can be provided as illustrated by the examples below. The 3D Radiodevice may be in any of several operational modes. For example:

-   -   Off. This is when the device is turned off, e.g., with the power        button, or when the car has been turned off. All tuners continue        to receive radio programming and the device continues to        compress and store the received audio in its memory, but the        display is turned off and the audio output ceases.    -   On, normal radio play. When the device is turned on, the 3D        Radio outputs audio from one of the radio stations. To play        back, the audio is retrieved from memory, decompressed,        converted to analog, and output. The audio may be played back        immediately after it is compressed and stored, or it may be        delayed by any amount of time up to the size of the audio memory        buffer. In the example shown, the playback point may be at real        time or may be delayed by any amount up to an hour.    -   On, radio paused. When the radio output is paused, the audio        output is muted, and the storage of new audio data continues.    -   Saving radio. While playing radio or while 3D Radio is paused,        the incoming audio data may be stored to a more permanent memory        location, so that it will not be overwritten as the buffer        fills. The radio station selected for output may be in saving        mode, and one or more of the other stations not currently        selected may also be in saving mode.    -   Saved content playback. In this mode, audio continues to be        stored from all tuners. However, the output audio is taken from        a stored audio file rather than from one of the radio content        buffers. This stored content may be something that was        previously received as radio programming, it may be something        stored on a connected device such as a CD or flash memory card,        or it may be any item of audio content that has been transferred        from such a device to internal memory.    -   Playback of stored content paused. In this mode, audio playback        from a stored content item has been temporarily stopped.        Preferably, the content is retrieved from the internal memory of        the device 7700. Alternatively, it may have been retrieved from        a connected device.    -   Phone. In the phone mode, the 3D Radio's microphone and speakers        are used to support a phone call on a connected device (such as        a Bluetooth mobile phone). Storage of audio data from all tuners        continues, but playback has been paused.    -   Overlay. During any of these modes, a user feature may be        initiated that requires using the display and buttons, but        allows the audio to continue. In these cases, storage of radio        programming continues on all stations, and playback of radio or        stored content continues as begun prior to the overlay.

Each of the unselected radio station presets is in one of three modes:

-   -   Disabled. Before the user has programmed a preset, the        associated tuner is disabled and no content is stored.    -   Normal. The playback point progresses along with the record        point. The delay between the two remains the same as it was when        the station was last selected for output.    -   Paused. The playback point does not progress. The delay between        the playback point and the record point increases as additional        content is buffered.

In accordance with one or more embodiments, a display can be provided asillustrated by the examples below. For example, a three-line LCDdisplay, as shown, allows a variety of information to be presented tothe user, depending on the mode. In general, the first line of thedisplay contains information about the mode and source, while the secondand third line contain more specific information about an item of audiocontent being played. For example:

-   -   In off mode, the display is blank.    -   When playing radio:        -   Line 1 includes:            -   The station preset number            -   The station frequency (if appropriate for the type of                source) or channel number            -   The station call letters or name            -   A play icon to indicate play mode            -   A count of the time delay between the playback point and                the record point for this station, in mm: ss format.                This count does not change while playing back radio            -   If in save mode, the save icon is also displayed        -   Line 2 includes:            -   A thumbs-up icon if the artist of the item currently                being played back has been designated as a favorite            -   A thumbs-down icon if the artist has been designated as                a dislike            -   The name of the artist (if available)            -   May be the category of item (such as traffic, news,                etc.)            -   May be the name of a radio show            -   For a commercial, may include the first of two lines of                information about the product or service        -   Line 3 includes:            -   A thumbs-up icon if the item currently being played back                has been designated as a favorite            -   A thumbs-down icon if the item has been designated as a                dislike            -   The name of the item, or the second line of the name (if                available)            -   For a commercial, may be the second line of information                about the product or service            -   May present a call to action, such as “Press the phone                button to buy tickets”    -   When radio is paused, the display is the same, except:        -   The pause icon is displayed instead of the play icon        -   The playback delay count increments every second    -   When playing back a saved item, the display is similar to the        playback of radio programming, except:        -   The information about the radio station (present, frequency,            station name) is replaced with information about the source            (saved, CD, USB, etc.)        -   Time displayed is the playback offset from the start of the            item, and increments every second    -   When playback of a stored item is paused, the display is the        same except:        -   The pause icon is displayed instead of play        -   The playback offset does not change    -   In phone mode, the display shows:        -   Line 1 is phone icon and the phone number        -   Line 2 is the caller ID information, if available        -   Line 3 may show the connect time (minutes and seconds)    -   When in overlay mode, the display contents depend on the feature

In accordance with one or more embodiments, mode and display changes canbe provided as illustrated by the examples below. The following eventscan cause mode and display changes:

-   -   If a content item ends during normal radio play, the display is        updated with any new information and normal play continues.    -   While in the radio pause mode, if the delay between the playback        point and the record point reaches the size of the buffer, the        3D Radio resumes normal radio play mode, updating the display        and commencing audio output at the maximum delay position.    -   If an unselected preset is in pause mode and reaches its maximum        delay, the preset returns to normal mode, and the delay value        for that station is set to zero.    -   If an unselected preset has a non-zero delay and it remains        unselected for a time exceeding the size of the buffer, the        delay is reset to zero.    -   If the playback of a saved item reaches the end of that item,        the 3D Radio checks to see if there is another item stored in        the same location, and begins playback of the next sequential        item. After reaching the end of the last item in the location,        the 3D Radio enters pause mode on playback of that item.    -   If information about a call-in opportunity is received in the        radio signal while in normal radio mode and the playback delay        is less than 30 seconds, the call-in information is displayed        and will be used if the user presses the phone button.    -   If a phone call ends (either because the user hangs up or        because the call was disconnected from the other end), the 3D        Radio resumes the playback of the radio station or saved item        that was interrupted by the call, using the playback point at        the time of the commencement of the call.    -   If a content item ends (in the record stream) while in save        mode, the 3D Radio completes writing the item to memory, and        removes the save icon from the display. Playback continues        without interruption.

In accordance with one or more embodiments, certain interactivity can beprovided as illustrated by the examples below. The 3D Radio can respondto button presses, for example, as follows:

-   -   Power.        -   If the device is off, turn on. Return to the most recent            pause or play mode, either for the most recently selected            radio station or for the most recently interrupted playback            of a saved content item. Enable audio output and update the            display appropriately.        -   If the device is on, turn it off. Blank the display and            disable the audio output. If in phone mode, exit. If in            overlay mode, exit. Remember the current radio or saved            content play/pause mode and delay or playback offset.        -   While in off mode, all buttons other than the power button            may be ignored.    -   Volume Up or Volume Down. Adjust the volume. This option is not        active while audio is paused. The device may maintain separate        volume levels for radio play, saved item playback (if desired,        with different levels for playback from different sources), and        phone. The volume level may be briefly displayed on line 3 of        the display, temporarily replacing any other text.    -   Play/pause.        -   If in play mode for radio or saved content, enter pause            mode. If in pause mode enter play mode. Turn off/on audio            and update the display.        -   If in save mode, toggles between pause and play, but does            not affect saving of content item.        -   This button is ignored in phone mode.        -   If in overlay mode, operation of this button depends on the            specific function:            -   If in the search feature, the current playback of radio                or any saved content item is paused, the search feature                is exited, and playback of the selected item commences                at its beginning. The display is updated to reflect                playback of the selected saved or radio item.            -   If the play/pause button is pressed while other features                are used in overlay mode, the current playback of radio                or saved content pauses or resumes without updating the                display.    -   Number keys (1-6):        -   Six keys are shown in this example, but any suitable number            of presets may be supported.        -   While listening to radio, pressing and holding a number key            for at least two seconds programs the button for the            currently tuned station. The tuner associated with the            specific preset is programmed to receive the station. Any            buffered audio data stored for the station may be copied            into buffer memory associated with the preset. Storing of            audio data for the station into that buffer begins. In some            implementations, tuners are not preassigned to preset            numbers, but rather are assigned when the user programs the            preset. In these implementations, the tuner may not need to            be reprogrammed and the audio data may not need to be            copied.        -   Pressing a number key briefly will enter radio mode (if not            already in radio mode), and either resume playback or pause            state for the selected station. In some implementations,            selecting a station that is paused will cause it to enter            play mode at the previous delay offset. The display and            audio output will be set as appropriate. If one of these            buttons is pressed while in playback mode for a saved            content item, that item may be paused, so that playback of            that item can be resumed at the same point at a later time.            This does not affect save mode.        -   If in phone mode, these buttons may be ignored, or the            number may be used to access telephone features.        -   If in overlay mode, the function of these keys may depend on            the specific feature:            -   In the search feature, pressing a number key may change                the search category to show content items in the buffer                for the indicated radio station, and select the most                recent content item in that buffer for display.    -   Way Back:        -   In radio mode (pause or playback), sets the playback delay            to the size of the buffer for the currently selected station            and enters play mode. The display and audio output are            updated appropriately.        -   Does not affect save mode.        -   In playback or pause mode for a saved item, restarts            playback of the selected content item.        -   Ignored in phone mode.        -   For overlay modes:            -   In search, updates the display to the earliest or first                content item in the selected search category.    -   Now:        -   In radio mode (pause or playback), sets the playback delay            to zero for the currently selected station and enters play            mode. The display and audio output are updated            appropriately.        -   Does not affect save mode.        -   In playback or pause mode for a saved item, this button is            ignored.        -   Ignored in phone mode.        -   For overlay modes:            -   In search, updates the display to the latest or last                content item in the selected search category.    -   Instant Replay:        -   In radio pause mode, enters play mode and performs instant            replay function.        -   In radio play mode, skip back to the start of the song or            commercial, if one is currently being played and its start            can be identified (if less than one second from start of            item, skip back to start of previous item). If not a song or            commercial, skip back 15 seconds. Skip back to start of            buffer if there is less that 15 seconds available. Does not            affect save mode. Start playback at the new offset.        -   In recorded item playback or pause mode, skip back playback            point by 15 seconds (or to start of item if less than 15            seconds from start) and start playback mode from that point.        -   Ignored in phone mode.        -   In overlay mode:            -   Search:                -   Selects previous item in search category and updates                    display.    -   Skip Forward:        -   In radio pause mode, enters play mode and performs skip            forward function.        -   In radio play mode, skip to the end of the song or            commercial, if one is currently being played and its end can            be identified. If not a song or commercial, skip forward by            30 seconds. Set delay to zero if it is less than 30 seconds.            Does not affect save mode. Start playback at the new offset.        -   In recorded item playback or pause mode, skip forward of            playback point by 30 seconds and start playback mode from            that point. Ignored if less than 30 seconds from end of            item.        -   Ignored in phone mode.        -   In overlay mode:            -   Search:                -   Selects next item in search category and updates                    display.    -   Save:        -   If in radio play or pause mode, and the current playback            point is in a song, show, or other content item that has            already ended broadcast (playback delay is greater than the            length of the item), copy the entire item from the station            buffer to permanent storage and add title/track information,            along with information about station and broadcast time.        -   If the item is still in progress, copy the portion of the            item that has completed and enter save mode.        -   If in saved item playback mode or pause mode for an item in            internal memory, this button is ignored unless a flash or            other removable memory device is attached, in which case the            item is copied to that device.        -   If in playback or pause mode for an item on CD or removable            flash or other memory device, copy the item to local memory            and store whatever information is available.        -   Ignored in phone mode. In some implementations, 3D Radio may            save a recording of the phone conversation to internal            memory.        -   If in search feature:            -   If currently displayed title is in a radio station                buffer, copy the item (if complete), or copy the portion                that is complete and enter save mode for that station.            -   If currently displayed title is on CD or flash memory,                copy it to internal memory.            -   If currently displayed title is in internal memory, copy                the item to flash or other removable memory device if                attached, or ignore this key if no external memory                device is available.    -   Delete:        -   Ignored if not in play/pause mode for a saved item in            internal memory or search mode with such an item displayed.            Deletes the indicated item from internal memory. In search            mode, displays next item in category list, or top of next            category list if category list becomes empty. If pressed            while playing back or paused for a saved content item,            enters pause mode once item has been deleted.    -   Search:        -   Ignored in phone mode.        -   If in pause or play mode for radio or saved item, enters            search mode. Playback remains the same, but display enters            overlay mode with search data. First non-empty search            category from the following list is displayed:            -   Saved—all saved content items in internal memory, sorted                by date/time saved. First line of display: Search icon,                save icon, followed by text “Saved content”.            -   Favorites—all content items marked as favorites, whether                available in radio station buffers or saved content                memory. Sorted by start time for content on radio                stations, followed by saved content sorted by date/time                saved. First line of display: Search icon, favorite                icon, followed by text “Favorites”.            -   1-6—One category for each preset. Includes all content                available in the station's buffer, sorted by broadcast                time (item currently being broadcast is first, next most                recent is second, etc.) First line of display: Search                icon, present number, station frequency or channel                number, and station name/call letters.            -   One category for each currently available removable                memory device (CD, USB flash drive, SD or other memory                device), with items sorted as stored on the device.                Track names displayed if available. First line of                display: Search icon, the name of the device (e.g.,                “CD”), and the name of the album if available.            -   Additional specific categories may be available, such as                “Traffic” or “Weather”, in which case all content with a                matching category in any radio station buffer is                included, sorted newest to oldest. First line: Search                icon, followed by name of category.            -   Other categories may be created dynamically based on                availability. For example, if several songs by the same                artist or from the same album have been stored, they may                be grouped under a search category with that name.        -   Display is configured as follows:            -   Line one is the Search icon, followed by the specific                name and/or icon associated with the category.            -   Lines two and three are the specific information related                to the content item (e.g., artist and track name).        -   If Search button is pressed while in search feature, the            next non-empty search category is selected, the first item            in that category is found, and the display is updated.        -   If the last Search category is already displayed when the            Search button is pressed, the Search feature is exited and            the display is updated based on the underlying play or pause            mode.        -   Search mode times out if there is no user input within two            minutes.    -   Thumbs Up:        -   In pause or play mode for radio or a saved item, or while in            search mode, toggles the favorite status for the selected            item. If already thumbs up, in some implementations this may            toggle the favorite setting to remove the thumbs-up icon for            the item, while in other implementations the thumbs-up            button may be ignored if selected for an item that has            already been marked as favorite. If marked as thumbs down,            changes it to thumbs up. If neither, set it to thumbs up.            Updates the display. Stores the new setting in memory so            that matching content will be recognized as a favorite when            it is seen later. In some implementations, multiple levels            of preference may be specified, for example, zero to four            thumbs up.        -   Ignored in phone mode. In some implementations, may add the            phone number to a phone book.    -   Thumbs Down:        -   In pause or play mode for radio or a saved item, or while in            search mode, toggles the dislike status for the selected            item. If already thumbs down, in some implementations this            may toggle the dislike setting to remove the thumbs-down            icon for the item, while in other implementations the            thumbs-down button may be ignored if selected for an item            that has already been marked as disliked. If marked as            thumbs up, changes it to thumbs down. If neither, set it to            thumbs down. Updates the display. Stores the new setting in            memory so that matching content will be recognized as a            dislike when it is seen later. In some implementations,            multiple levels of dislike may be specified, for example,            zero to four thumbs down.        -   Ignored in phone mode.    -   Phone:        -   If in radio or saved content play mode, pauses the playback        -   If there is an incoming call, answers the call            -   Caller ID should already be displayed            -   Connect time can also be displayed for the duration of                the call        -   If the currently playing audio has embedded phone            information, initiates a call to the indicated phone number.            -   Shows caller ID and associated information on display            -   Shows string “Dialing” until there is an answer, and                then display connect time.            -   May include an automatic redial number for busy signal        -   If there is no phone number in the radio signal, allow the            user to specify the number or phone book entry            -   Supports voice recognition and dialing            -   Allows use of phone keyboard            -   Some implementations of 3D Radio may include all digits                0-9, and the 3D Radio buttons can be used to dial            -   Display is updated while dialing and during call        -   During a call:            -   Hangs up the call            -   Resumes playback mode for radio or saved content most                recently selected    -   Source:        -   Selects the spare (e.g., seventh) tuner if not already            selected        -   Displays and selects one of the available audio sources.        -   Pressing this button multiple times will toggle through the            available sources. The first press does not change sources,            just displays the name of the currently selected source.        -   If on the last source, cycles back to the first.        -   Clears the audio buffer for the station each time the source            changes.        -   Supported sources may include:            -   AM            -   FM            -   HD            -   Satellite            -   Internet            -   Saved            -   CD (shown if a CD is inserted)            -   Flash (shown if a flash memory device is connected)        -   Selecting Saved, CD, or flash does not require selecting and            changing the tuner or clearing the audio buffer. Instead, it            enters saved content playback mode for that device.        -   Display of source name times out after five seconds, or when            the user presses any other button.    -   Tune Up/Down:        -   Selects the spare (e.g., seventh) tuner if not already            selected        -   Adjusts the frequency if appropriate for the type of source            (e.g., AM or FM radio).        -   Increments the channel number if appropriate for the type of            source (e.g., Internet or satellite radio).        -   Displays the frequency or channel number and the channel            name if available.        -   If on the highest (lowest) frequency/channel, cycles to            lowest/highest.        -   Clears the audio buffer for the station each time the            frequency/channel changes.        -   Tuning up and down while the Saved, CD, or flash source is            selected jumps between tracks stored on that source (does            not affect a tuner or clear any buffer).        -   While in the search feature, these buttons may be used to            select the next/previous content item in the selected            category.    -   Scan:        -   Enters or exits scan mode        -   During scan mode, the word “Scan” is added to the first line            of the display.        -   Upon entering scan mode, all tuners are allocated to the            scan feature.        -   Each is tuned to the next consecutive available station on            the currently selected source. For example, eight tuners are            tuned to the eight stations on the selected source at the            lowest frequencies. The first is selected for output.        -   Every five seconds, the next tuner is selected and the one            just deselected is tuned to the next available source. In            some implementations, the tuner reassigned may be the one            prior to the one just deselected, to allow the user to go            back to that station and maintain its audio buffer.        -   When the user exits scan mode, there will be, for example,            40 seconds of stored audio available to skip back and listen            to.        -   Pressing the play/pause button while scan is active pauses            or resumes the scan (not the audio) and allows the user to            listen to the current selection for longer. Scan pause mode            may time out automatically to normal radio play mode if the            user does not resume scan within one minute.        -   Skip Forward while scan is active immediately advances the            scan to the next station.        -   Instant Replay while scan is active returns to the previous            station in the scan, and puts the scan (but not the audio)            into pause mode.    -   3DR:        -   Allows the user to enable the “My3DR” feature.        -   Personalized “radio station”.        -   The text “My3DR” is pre-pended to the first line of the            display, along with information about the source of the            content being played.        -   Content is automatically selected from all available content            sources. As each item ends, the next item is automatically            selected and played, regardless of source.        -   Radio content from all active presets is used, based on            previous user Favorite selections.        -   Preference is given to older content that will be            overwritten sooner.        -   Saved content is also used, on a “shuffle” basis.        -   May be filled with radio content that is similar to that            marked as favorites (e.g., same artist, link via a “similar            to” database).        -   May be further extended by content that has not been marked            either favorite or dislike.        -   All audio navigation features (Way Back, Instant Replay,            Skip Forward, Now, Play/pause) are available while in the            My3DR feature.    -   Audio (not shown):        -   Enters overlay mode to allow the user to adjust various            audio settings, while continuing to play radio or saved            content. Pressing the Audio button multiple times may toggle            between different adjustment features, such as bass, treble,            balance, selecting equalizer settings, etc. While in the            audio-adjust feature, the other buttons may be repurposed.            The Volume Up/Down or Tune Up/Down buttons may be used to            increase and decrease various settings dynamically. The            number keys may be used, for example, to select from            multiple equalizer presets. The display is used to guide the            user through the settings. Pressing the Audio button while            the final audio setting is displayed may exit the audio            adjustment feature. The overlay mode display times out if            there is no user input for one minute.    -   Previous Station (not shown):        -   Pressing this button will enter radio mode (if not already            in radio mode), and either resume playback or pause state            for the most recently tuned station. This may involve            selecting one of the six preset tuners, or it may involve            selecting the spare tuner if the most recent station isn't a            preset. If possible, this function is performed by selecting            a previously tuned tuner rather than by changing a tuner            setting, to allow the user the option of reviewing past            audio on the station. The display and audio output will be            set as appropriate. If in playback mode for a saved content            item, that item may be paused, so that playback of that item            can be resumed at the same point at a later time. This does            not affect save mode. In some implementations, pressing the            Previous button may allow the user to resume playback of a            previously played saved item.        -   If in phone mode, this button may be ignored.        -   If in overlay mode, the function of this key may depend on            the specific feature.    -   Setup/Menu (not shown):        -   Enters overlay mode and allows access to various device            setup and configuration options. While in setup, other keys            such as the number keys and navigation keys may perform            alternate functions, and the display may be used to guide            the user through various operations. Pressing this key again            may exit from the setup feature. Audio playback may continue            normally while in the setup feature. If the user presses no            keys for one minute while in the settings feature, overlay            mode and the feature may time out.    -   Rewind, Fast Forward, Slow Play (not shown):        -   Change the playback direction and/or speed of the current            radio or saved content playback.        -   May include frequency compensation.        -   Includes the same rules about coming to the start or end of            the content as during normal play and skip functions.

In accordance with one or more embodiments, certain external memorydevice related features can be provided as illustrated by the followingexamples. When an external memory device is connected, the 3D Radio maytake any suitable action:

-   -   When a music CD is inserted, or a flash memory device is        attached that contains music or other content:        -   3D Radio may begin playing the content automatically.        -   The tracks may be automatically stored into internal memory            if adequate space is available. In the case of a music CD,            the format of the music may be changed (e.g., to MP3). Any            associated information (e.g., artist and title) may be            copied as well or retrieved from another location.        -   The user may be given an option to save the content to            internal memory.        -   The tracks may be made available to the user for searching,            saving, and playing directly from the device.    -   When a memory device with music information (artist, title, song        signature, etc.) is connected:        -   The information may be automatically copied into internal            memory.        -   The information may be made available for stored or            broadcast music.        -   The user may be given an option to save the data to internal            memory.    -   When a memory device with a 3D Radio software update is        attached:        -   The update may be automatically installed.        -   The user may be given an on-screen option to install the            update.    -   While an external writeable memory device (e.g., flash drive) is        attached:        -   When saving a content item, the user may be given the option            to save the item to the external memory rather than internal            memory.        -   The user may be given the option to store all user settings            to the external memory device, and to load user settings            from the external memory device if present.

Note in the above when mentioned is made to ignoring, it will beunderstood that the respective feature can be implemented without suchignoring if desired depending on the context of the usage of the term.

FIG. 77B shows an embodiment of a multi-tuner radio with a particularuser interface—physical buttons and an LCD or similar display. However,the present invention may provide an alternate or additional userinterface. This may be useful, for example, when the number of commandbuttons gets to be large, or when it is important to be able to operatethe radio without looking at its control panel (as for example whiledriving). FIG. 78 shows the radio 7810 of FIG. 77B with button inputsinstalled in an automobile dashboard 7820. FIG. 82 shows an embodimentshowing components of the multi-tuner radio.

In one such embodiment, the radio device may support voice a controlcomponent 8250. This embodiment may include a display 8270 similar to7730 that is shown in FIG. 77B. It may also include at least one button8280 of FIG. 82 (e.g., 7710-7717 of FIG. 77B), or alternatively areduced number of buttons. For example, voice commands may be supportedfor common requests, and buttons may be present to support setup andother infrequent uses.

To support voice control, a microphone in communication with microphoneinterface 8260 of FIG. 82 may be built into the radio device.Alternatively one or more microphones in communication with microphoneinterface 8260 may be located remotely from the radio and may providesignals to the radio. For example, in a car radio embodiment, there maybe a plurality of microphones. One microphone may be located toconveniently pick up voice commands from the driver (for example, on thesteering wheel, sun visor, door frame, or rearview mirror). A secondmicrophone may be located to conveniently pick up voice commands from apassenger (for example, on the door frame, sun visor, or dash). A thirdmicrophone may be located to pick up the output of the radio foranalysis of the sound characteristics of the listening environment. Toprovide a cleaner voice signal, the radio device may use the raw audiooutput signal and the environmental microphone to determine atransformation function, and then use the inverse of that function toremove the radio's output from the command microphone. FIG. 79 shows amulti-tuner radio installed in an automobile dashboard, with threemicrophones. A microphone 7910 designed to pick up voice commands from adriver is installed in the steering wheel. A microphone 7930 designed topick up voice commands from a front seat passenger is installed in thedashboard above the glove compartment. A third microphone 7920 isinstalled on the rearview mirror to pick up general voice commands andto measure ambient sound levels and interference.

FIG. 81 shows a logical flow diagram of an illustrative embodiment forcontrolling a multi-tuner radio. Different configurations of operationsmay be used without departing from the scope of the invention. In oneembodiment, the steps of FIG. 81 may be performed by processor 8230.

At step 8110, a voice command may be received. In one embodiment, thevoice command may be received through microphone interface 8260 andfurther processed by voice control component 8250 and/or processor 8230.In one embodiment, such as in a car or home radio, a microphone may bebuilt into a remote control device. Voice commands may be given byspeaking into the remote control. In some embodiments, such as withportable radios, a microphone may be built into the radio device itself.

At step 8120, to provide a cleaner voice signal, the voice command maybe filtered (e.g., by voice control component 8250). In one embodiment,the radio device may use the raw audio output signal and theenvironmental microphone to determine a transformation function, andthen use the inverse of that function to remove the radio's output fromthe command microphone.

At step 8130, an operation of the radio may be modified based on thereceived voice command (e.g., using voice control component 8250 and/orprocessor 8230). In one embodiment, the radio may support a vocabularyof voice commands to navigate the radio's functions. The following tabledefines the set of voice commands, and associated function, for oneembodiment:

Voice Command Function On Turn on radio Off Turn off radio (radiosignals continue to be buffered while the radio is turned off) LouderTurn up volume Softer Turn down volume Pause Pause audio playback PlayResume audio playback Continue Same as “Play” Skip Skip forward by 30seconds Next Skip to start of next song or other audio content itemReplay Skip back 15 seconds Restart Go back to start of current song orother content item Now Jump to current broadcast point on currentlyselected radio station and start playback at that point Way Back Jump toearliest buffered content on currently selected radio station and startplayback at that point Station One Switch to user's first programmedstation preset Station Two Switch to user's second programmed stationpreset Station Three Switch to user's third programmed station presetStation Four Switch to user's fourth programmed station preset StationFive Switch to user's fifth programmed station preset Station Six Switchto user's sixth programmed station preset Save Station One Save stationcurrently being output as station preset number one, where one is anyassignable station preset number Next Station Switch to the next presetPrevious Station Switch to previous preset Input AM Select AM radio asinput source Input FM Select FM radio as input source Input HD Select HDradio as input source Input Satellite Select satellite radio as inputsource Input Wi-Fi Select Wi-Fi radio as input source Input Saved Selectcontent items saved to internal memory for playback Input CD Select CDplayer as input source Input MP3 Player Select digital audio player asinput source Input iPod Select a specific brand of digital audio playeras input source Input Flash Select flash memory device as input sourceTune frequency Tune to specified frequency, i.e., 88.5 FM Tune Up Tuneto next available frequency or station on selected source Tune Down Tuneto next lower available frequency or station on selected source ScanStart a scan of available radio stations Pause Scan Temporarily pausescan, allowing listener to dwell on a particular station Resume ScanContinue scanning available stations after pausing Scan ForwardImmediately advance scan to next station Scan Back Go back on station inscan sequence Like Indicate that audio content currently being output isa favorite of listener Hate Indicate that audio content currently beingoutput is disliked by listener Save Save a copy of audio content itemcurrently being output into internal memory or removable memory deviceDelete Delete selected audio content item from memory Search Beginsearch for audio content Search category Search for audio content inspecified category (such as station number, name saved, CD, flash,favorites, traffic, weather, etc.) Category Select next search categoryNext Select next audio content item in selected search category PlayPlay selected audio content item Fast Forward Begin fast play of currentoutput Rewind Begin reverse play of current output My3DR Select My3DRpersonalized radio station feature Call In Call number indicated bycurrent audio content item Dial phone number Place phone call toindicated number Answer Pick up incoming phone call Goodbye Hang upphone Last Station Resume playing most recently output station

At step 8140, a fingerprint may be optionally recognized. In oneembodiment, the fingerprint may be recognized using gesture pad 8240.Some embodiments may include fingerprint identification and/orauthorization, using technology similar to, for example, the MicrosoftFingerprint Reader. This may be used for authentication or othersecurity purposes, to prevent an unauthorized person from using theradio. It may also be used to identify which finger is being used. Insome embodiments, the fingerprint identification may be used todetermine the orientation of the finger when it is pressed to the pad.At step 8150, in some embodiments, the fingerprint identification may beused to determine which user is providing a command, and to provide acustomized experience based on that identification (for example byproviding individual user preferences).

At step 8160, a gesture input may be received. In one embodiment, thegesture input may be received through gesture pad 8240. In someembodiments, the multi-tuner radio may be controlled by a gesture pad(8240). One example of a gesture pad that may be incorporated into theradio device is the Fingerworks iGesture Pad, which allows mouse-likeinput using multi-finger gestures. Another example is the touch screenused in Apple Computer's iPod devices, which incorporates a displayscreen into the input device.

The gesture input pad may be incorporated into the radio device or itmay be located remotely. This input may replace the standard input keys,or it may supplement them. In some embodiments, common commands may beavailable using the gesture input pad, while infrequent commands, suchas device setup commands, may require the use of physical keys. In someembodiments that use touch-screen technology, the need for physical keysmay be eliminated by using soft keys—content-specific buttons drawn onthe screen.

The gesture pad may be located at a plurality of locations. For example,in a car the gesture pad may be located on the steering column toprovide easy access by the driver to common radio control commandswithout removing the hands from the steering wheel. In some embodiments,there may be two gesture pads on the steering wheel, one on each side.These two gesture pads may be used in some embodiments for differentcommands, while in other embodiments they may provide duplicatefunctionality. In some embodiments, multiple gesture pads may beprovided to allow easy command input from different locations. Forexample, in a car one gesture pad may be located on the steering columnfor the driver, and a second gesture pad may be located on the dash foreasy access by a passenger. An additional gesture pad may also beprovided on a remote control device. FIG. 80 shows a radio 8010installed in an automobile dashboard 8020 that uses gesture pads foruser input. Two gesture pads 8030-8031 are installed on the steeringwheel for command input by the driver. A separate gesture pad 8032 islocated on a remote control device resting on the console.

In some embodiments, for example in a home or automobile environment,the gesture pad may be incorporated into a remote control device, whichmay use IR, UHF, Bluetooth, or other wireless or wired technology tocommunicate commands to the radio device. In some embodiments, thegesture pad may be incorporated directly into the radio device, as forexample with a portable radio device. In some embodiments with multiplegesture pads, the system may determine which user is commanding thedevice based on which gesture pad is used for input. This may be used,for example, to provide separate preferences for different users.

Input commands on the gesture pad may be indicated by touching the padand making a suitable gesture. In some cases, this may involve touchingthe pad with one finger. In some cases, two or more fingers may be usedto create distinct commands.

At step 8170, an operation of the radio may be modified based on thereceived gesture input (e.g., using processor 8230). FIGS. 83A-83C andthe following table define a set of gesture, a description of thegesture, and an associated command for modifying the operation of theradio, in one embodiment:

Gesture from FIGS. 83A-83C Description Command 8301 Two quick taps withone finger On 8302 Press index finger firmly in center Pause of pad 8303Quick short motion to the right with Play index finger 8304 Quick shortmotion to the right with Skip forward five seconds index finger 8305Quick longer motion to the right Skip forward 30 seconds with indexfinger 8306 Quick longer motion to the right Skip to the end of song oraudio with index finger, followed content item immediately by a tap atthe end 8307 Stroke the entire width of the pad Now with index finger tothe right with a tap at the end 8308 Quick short motion to the left withSkip back five seconds index finger 8309 Quick longer motion to the leftwith Skip back 30 seconds index finger 8310 Quick longer motion to theleft with Skip back to the start of song or index finger, followedimmediately audio content item by a tap at the end 8311 Stroke theentire width of the pad Way Back with index finger to the left with atap at the end 8312 Wiggly stroke upward and to the Volume Up right 8313Wiggly stroke downward and to the Volume Down right 8314 Press down withindex and middle Volume Up, volume increases while finger simultaneouslyand hold fingers are held in place 8315 Press down with index and littleVolume Down, volume decreases finger simultaneously and hold whilefingers are held in place 8316 Quick short motion to the right withWhile playing, begins fast forward both index and middle finger Whilefast forwarding, increases speed of playback While playing in reverse,decreases speed of playback 8317 Quick short motion to the left withWhile playing, begins reverse play both index and middle finger Whilereverse playing, increases speed of reverse playback While fastforwarding, decreases speed of playback 8318 One quick tap with indexfinger While fast forwarding or rewinding, returns to normal playback8319 Press thumb down firmly in upward Like - indicates an audio contentorientation item preferred by the listener. Orientation of thumbdetermined by fingerprint recognition. 8320 Press thumb down firmly inthe Hate - indicates an audio content downward orientation item dislikedby the listener. Orientation of thumb determined by fingerprintrecognition. 8321 Quick short upward motion with Select the next presetstation for index finger output 8322 Quick short downward motion withSelect the previous preset station for index finger output 8323 Draw thenumber “1” Select preset favorite station one for output 8324 Draw thenumber “2” Select preset favorite station two for output 8325 Draw thenumber “3” Select preset favorite station three for output 8326 Draw thenumber “4” Select preset favorite station four for output 8327 Draw thenumber “5” Select preset favorite station five for output 8328 Draw thenumber “6” Select preset favorite station six for output 8329 Press fourfingers at once Select saved content for playback 8330 Select digitalaudio player if connected 8331 Draw a circle Select the CD for playback8332 Draw a zigzag Select shuffle playback mode 8333 Two taps withthumbs in upward Select My3DR feature orientation 8334 Press thumb, andlittle finger at Call, Answer, or Hang Up once 8335 Draw digits of phonenumber Call the specified number 8336 Quick short downward motion withSave the current selection three fingers 8337 Drum four fingers (e.g.,pinky, ring, Bring up soft-key function to allow middle, and indexfingers) in quick access to full set of radio features succession

At step 8180, a user training may be optionally provided. In oneembodiment, the user training may be provided using processor 8230,gesture pad 8240, and/or display 8270. Some embodiments may use trainingto improve gesture recognition accuracy. This may be used to teach thedevice how hard the user presses down, how long the gesture strokes are,etc. In some embodiments, training may not be necessary. In someembodiments, the device may include a user training mode, in which theuser is walked through various commands. This user training may include,for example, displaying the name of the command in text on the gesturepad, displaying the gesture on the pad graphically using dots, lines,and arcs, prompting the user to make the gesture him or herself, andproviding the user with feedback as to how well the gesture wasperformed. In some embodiments, user identification may be performedbased on characteristics of gesture input, which may be determined in atraining session or may be determined or refined over normal use.

Although this present invention has been described in considerabledetail with reference to certain preferred versions thereof, otherembodiments are possible. It is to be understood that other embodimentscan be utilized and structural changes can be made without departingfrom the scope of the present invention. Therefore, the spirit and scopeof the invention should not be limited to the description of thepreferred embodiments contained herein.

1.-5. (canceled)
 6. An automobile entertainment system configured to beused in an automobile, the automobile entertainment system comprising anin-vehicle system that is configured to: a. perform wirelesscommunication with a user's mobile telephone, wherein the user's mobiletelephone is removable from the automobile entertainment system; b.connect to a telephone service by being connected to the user's mobiletelephone; c. allow the user to use an input device of the automobileentertainment system to control the automobile entertainment systemincluding to select to play or control the play of received radiocontent; d. control functions of the user's mobile telephone; e.communicate with the mobile telephone to receive digital music stored onthe user's mobile telephone or received by the user's mobile telephone,and output the audio of the digital music to speakers in a sound systemof the automobile; f. allow the input device of the automobileentertainment system to dial a telephone number on the user's mobiletelephone; g. receive radio audio and output the received radio audio tothe speakers in the sound system of the automobile; h. communicate withthe user's mobile telephone to receive audio from a party on the otherend of a telephone call using the user's mobile telephone and output thereceived audio to the speakers in the sound system of the automobile;and i. receive voice input from a user from a microphone as part of theautomobile entertainment system, communicate with the mobile telephoneand send the user's voice input to the mobile telephone to be sent tothe party on the other end of the telephone call.
 7. The automobileentertainment system of claim 6, wherein the received radio content isone or more of terrestrial radio content, satellite radio content, andInternet radio content.
 8. The automobile entertainment system of claim6, wherein the received radio content comprises individual audio contentitems streamed from the mobile telephone.
 9. The automobileentertainment system of claim 8, wherein the in-vehicle system isfurther configured to determine which individual audio content items tostream based at least partly on a user preference.
 10. The automobileentertainment system of claim 6, wherein the received radio contentcomprises individual audio content items streamed over the Internet. 11.The automobile entertainment system of claim 10, wherein the in-vehiclesystem is further configured to determine which individual audio contentitems to stream based at least partly on a user preference.
 12. Theautomobile entertainment system of claim 6, further configured to allowthe user to pause audio output to the speakers from the in-vehiclesystem or the mobile telephone.
 13. The automobile entertainment systemof claim 6, further configured to allow the user to skip forward orbackwards in the received digital music or the received radio audio fromthe in-vehicle system or mobile telephone.
 14. The automobileentertainment system of claim 6, wherein the in-vehicle system isfurther configured to continuously monitor and record audio from atleast one radio station and to provide a low power mode while theignition of the automobile is turned off in which the in-vehicle systemcontinues to record audio from the at least one radio station in the lowpower mode.
 15. The automobile entertainment system of claim 6, whereinthe in-vehicle system is further configured to continuously monitor andrecord audio from at least one radio station and to provide an off modein which the in-vehicle system continues to record audio from the atleast one radio station.
 16. The automobile entertainment system ofclaim 6, wherein the in-vehicle system is further configured to includea fingerprint sensor configured to activate a function of the in-vehiclesystem.
 17. The automobile entertainment system of claim 6, wherein thein-vehicle system is further configured to allow the user to purchase aproduct or music.
 18. The automobile entertainment system of claim 6,wherein the in-vehicle system is further configured to determine currentlocation of the in-vehicle system and to use the determined location toactivate at least one function of the in-vehicle system.
 19. Theautomobile entertainment system of claim 6, wherein the in-vehiclesystem is further configured to direct the user to a local facility orbusiness.
 20. The automobile entertainment system of claim 6, furtherconfigured to allow the user to control its function using his or hervoice.
 21. The automobile entertainment system of claim 6, furtherconfigured to save a copy of received radio audio, and to allow the userto listen to the saved audio at a later time.
 22. The automobileentertainment system of claim 6, further configured to allow the user tosend a message to the user of another device.
 23. An automobileentertainment system comprising an in-vehicle system that is configuredto: a. perform wireless communication with a user's mobile telephone,wherein the user's mobile telephone is removable from the automobileentertainment system; b. connect to a telephone service by beingconnected to the user's mobile telephone; c. allow the user to use aninput device of the automobile entertainment system to control theautomobile entertainment system including to select to play or controlthe play of received radio content; d. control functions of the user'smobile telephone; e. communicate with the mobile telephone to receivedigital music stored on the user's mobile telephone or received by theuser's mobile telephone, and output the audio of the digital music tospeakers in a sound system of an automobile; f. allow the input deviceof the automobile entertainment system to dial a telephone number on theuser's mobile telephone; and g. receive radio audio and output thereceived radio audio to the speakers in the sound system of theautomobile.
 24. The automobile entertainment system of claim 23, whereinthe in-vehicle system is further configured to select the digital musicreceived from the mobile telephone based on user preferences.
 25. Theautomobile entertainment system of claim 23, further configured to allowthe user to move user preferences between the in-vehicle system and themobile telephone.
 26. The automobile entertainment system of claim 23,wherein the in-vehicle system is further configured to pause or mute theoutput of the digital music audio or the radio audio to the speakerswhen a telephone call is in progress.
 27. The automobile entertainmentsystem of claim 23, wherein the in-vehicle system is further configuredto simultaneously and continuously monitor and record audio frommultiple radio stations and to allow the user to selectively play backthe recorded audio.
 28. The automobile entertainment system of claim 23,wherein the in-vehicle system is further configured to allow the user torespond to an advertisement displayed by the in-vehicle system.
 29. Theautomobile entertainment system of claim 23, wherein the in-vehiclesystem is further configured to simultaneously and continuously monitorand record audio from substantially all available radio stations and toallow the user to selectively play back the recorded audio.